Huberman Lab - Dr. Layne Norton: Tools for Nutrition & Fitness
Episode Date: August 12, 2024In this episode, my guest is Dr. Layne Norton, Ph.D., one of the world’s top experts in nutrition and training for physical fitness. We discuss how to evaluate scientific evidence and the validity o...f different practices aimed at achieving fat loss, muscle strength and hypertrophy, microbiome health, vitality, and longevity. We explore many hotly debated topics, including fasting, seed oils, saturated fats, sugar, red meat, artificial/low-calorie sweeteners, and GLP-1 agonists (e.g., Ozempic). Additionally, we delve into the timing of protein and carbohydrate intake relative to fasting and exercise, fat loss and sleep, and the benefits of dietary protein and fiber on overall health. We also discuss how to accelerate hypertrophy and fat loss, improve strength, whether we need to train to “failure,” how to enhance exercise recovery, and how to manage pain. We cover training before versus after age 50, whether metabolism changes with age, and the connection between muscle health and longevity. We also address why certain behaviors and supplements might work for some people but not others. Listeners to this episode will benefit greatly from Layne’s science-based expertise on a wide range of topics, including health, nutrition, and fitness. Access the full show notes for this episode at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman Mateina: https://drinkmateina.com/huberman Eight Sleep: https://www.eightsleep.com/huberman Maui Nui: https://mauinuivenison.com/huberman LMNT: https://drinklmnt.com/huberman Timestamps 00:00:00 Dr. Layne Norton 00:01:49 Sponsors: Mateina, Eight Sleep, Maui Nui 00:06:39 Science-Based Evidence, Mechanism vs. Outcome 00:14:31 Meta-analysis, Methods, Evidence Quality 00:22:45 Evidence Hierarchy, Randomized Controlled Trials, Cohort Data 00:33:53 Sponsor: AG1 00:35:05 “Don’t Turn Your Brain Off”; Protein Synthesis 00:42:01 Protein Synthesis, Refractory Response; Resistance Training 00:46:05 Protein Intake, Intermittent Fasting & Training 00:54:52 Tool: Total Protein Intake, Distribution & Protein Synthesis 01:00:25 Muscle Quality, Protein Remodeling, Muscle Growth 01:05:34 Sponsor: LMNT 01:06:46 Early vs. Late Time-Restricted Eating; Fasting Blood Glucose & HbA1c 01:10:30 Carbohydrate Timing, Individual Response, Placebo; Tool: Tracking Diet 01:19:50 “The Norton Method”; Tool: Consistency 01:25:16 Resistance & Cardiovascular Training; Competition; Immune System & Rest 01:33:50 Mind & Body Effects, Stress; Belief Effects 01:41:30 Training to Failure, Reps in Reserve, Hypertrophy & Strength Training 01:50:24 Fatigue & Training to Failure, Speed, Strength Training 01:59:06 Tool: Training After 50, Consistency 02:09:12 Fat Cells, Diabetes, Exercise 02:16:50 Metabolism & Age-Related Changes?, Appetite 02:23:17 Ozempic, Mounjaro, GLP-1 Agonists, Lean Mass, “Food Noise” 02:33:42 GLP-1 Agonists, Judgement & Obesity 02:40:19 Sugar, Excess Calories, Body Weight 02:49:16 Satiety, Sugar & Calorie Budget 02:54:56 Tool: Individualization, Context & Diet Psychology 02:57:22 Seed Oils, Butter, Olive Oil 03:06:56 Red Meat, Carcinogenic?; Simple Diet; Fiber Benefits 03:13:43 Saturated Fat, Cholesterol; Seed Oils 03:18:41 Artificial & Low-Calorie Sweeteners, Insulin, Appetite 03:29:06 Artificial & Low-Calorie Sweeteners, Gut Microbiome; Cancer 03:37:58 Tools: Training Recovery, Glycogen Replenishment; Stress & Activity 03:45:56 Collagen Supplementation, Skin & Nails, Whey Protein 03:57:00 Evidence-Based Approach 04:01:41 Zero-Cost Support, YouTube, Spotify & Apple Follow & Reviews, YouTube Feedback, Protocols Book, Social Media, Neural Network Newsletter Disclaimer & Disclosures
Transcript
Discussion (0)
Welcome to the Huberman Lab Podcast,
where we discuss science
and science-based tools for everyday life.
I'm Andrew Huberman,
and I'm a professor of neurobiology and ophthalmology
at Stanford School of Medicine.
My guest today is Dr. Lane Norton.
Dr. Lane Norton did his training in biochemistry
and nutritional sciences,
and is one of the world's foremost experts
in exercise and nutrition.
He is also an expert in the topic of supplementation
and other tools to augment health.
Today, we discuss a large number
of very important topics in these categories.
And we start the conversation
by establishing what Dr. Norton's thresholds are
for what he accepts as evidence,
in particular, actionable evidence.
So what follows is a description
of what Dr. Norton really believes
is worth paying attention to
versus what he believes is worth ignoring
in the realms of nutrition, training, and supplementation.
So you can be certain that as we start
to go through the topics of sugar, GLP-1 agonists,
things like ozempic, artificial sweeteners,
whether you should train to failure or not
during your resistance training sessions,
how much volume of training you need to do,
cardiovascular training and its different forms
in terms of how they benefit health span and lifespan
and body composition, protein and its different sources,
and on and on.
Indeed, we cover many topics in this episode.
You can be sure that all of the information you hear from Dr. Norton is being filtered
through that extremely stringent filter that Dr. Norton is so well known for.
And thus by the end of today's episode, you'll be armed not only with the latest information
on nutrition, training and supplementation, but you'll also be armed with your own filter
to determine what sorts of health protocols
are actionable for you.
Before we begin, I'd like to emphasize that this podcast
is separate from my teaching and research roles
at Stanford.
It is however, part of my desire and effort
to bring zero cost to consumer information
about science and science related tools
to the general public.
In keeping with that theme,
I'd like to thank the sponsors of today's podcast.
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slash Huberman. And now for my discussion with Dr. Lane Norton. Dr. Lane Norton, welcome back.
Thanks for having me back. Before we jump in, I want to get your stance
on what constitutes evidence.
Because I think a big reason why you are considered
one of the, if not the most trusted person
in the realm of nutrition and training,
is that you set a very high bar
for what you consider science-based fact that
motivates action. So to just kind of break this down based on my read of the landscape online,
it seems that there's a group of people, I don't know what to call them, purists or something,
who unless there's a randomized controlled trial,
so that means in humans, or several,
that points in a particular direction,
they are very unlikely to adopt a new practice,
say removing a given food or nutrient,
adding a given food or nutrient,
training a certain way, not training a certain way.
Okay, that's one group.
Then there are the people who,
if they are told something could be of value,
they hear it's worked very well for somebody,
maybe they see some before and afters,
and it gets mapped to a mechanism
that exists in humans and animals,
like, oh, there's this molecule,
and if this molecule increases, X, Y, and Z happens, and training this molecule and if this molecule increases, X,
Y and Z happens and training this way or eating this way increases that molecule for instance,
but no randomized control trial, then they're willing to try it or adopt it.
And then there's a third, probably a fourth category as well where people say they don't
trust science anyway, science is flawed or the controls required to design a really good
experiment are so constrained
that they don't mimic the real world well enough.
And so they're really just interested in what works.
So they look to people that seem to have achieved the results they want.
Feel free to add another group, but which group would you consider yourself in personally?
And then where does your evidence
that you put out online and today come from?
And I already know the answer to the last question,
but I think it was important
to kind of spell out the landscape.
So everything you just mentioned
would fall into the category of evidence.
Everything that we can observe is evidence.
But I think what people really struggle with
is the idea of different levels of quality of evidence.
And if I had to put myself into a group,
I have definitely been on the side of,
well, there's a case study in this journal
and we're gonna try that now because it must work.
Or, you know, my friend tried this and they said it worked,
so I'm gonna try it.
And then I've also gone to the group of, well, there's no human randomized control trial, so I'm gonna try it. And then I've also gone to the group of,
well, there's no human randomized control trial,
so I don't believe it.
And I think now, you know, I'm 42 now,
and I've been doing this for two decades,
I think where I'd fall into is it really depends
on how the individual is talking about the evidence.
Okay, so as you can probably imagine,
I get sent a lot of stuff for people to like,
oh, debunk this.
And a lot of times people will send me things
and I'll go, hey, this person said this is their opinion.
That's fine.
Like I may disagree with their opinion,
but I'm not gonna like rake them over the coals
for them saying this is an opinion
or this is my personal experience.
That's evidence.
It's low quality evidence, but it is evidence.
I think I kind of fall in a line of,
I ideally want to see human randomized control trials,
but there's also, as you mentioned,
practical limitations with how things are implemented.
And I think one of the things
that gave me a very unique perspective was the fact that I was doing
my PhD in nutrition after I did a bachelor's
in biochemistry.
So I had that mechanistic understanding.
And then I had an absolutely wonderful PhD advisor,
Don Layman, who just, shout out to him,
got a lifetime achievement award
by the American Society of Nutrition 20 years too late.
But he was just incredible at being able to understand
the small things, but how they impacted the big things
and what it looked like overall.
It's like a conductor looking at a symphony, right?
And understanding how the trumpet sounds
affects everything else, but then not getting so tied up in that
that he can't hear all the music, right?
And he was so good at that
and was so good at getting me to think that way.
And so I think where people out in the landscape
trying to dissimilate this really struggle
is they don't really know,
well, this person decided to study
and they equate that as evidence
that's equal
with any other evidence, right?
And as a researcher, you know,
not all evidence is created equal.
Not all journal articles are created equal.
And I mean, honestly, people who don't have
the research background, it's hard to unpack this stuff.
So what I would say is you have to be very careful
with people who cite studies. And one of the things I'll say too you have to be very careful
with people who cite studies. And one of the things I'll say too is
there's nothing more dangerous
than somebody who's read a biochemistry book.
Because they're gonna see pathway, biochemical pathway,
there must be an outcome.
So outcomes are what we really care about, right?
At the end of the day, and when I say outcomes,
gaining muscle mass, losing fat mass,
risk of cardiovascular disease,
insulin sensitivity, cancer.
But these are hard outcomes, right?
And those outcomes are the summation of dozens,
if not hundreds, if not hundreds,
if not thousands of biochemical pathways
all summing up to an outcome.
And just because something has a biochemical pathway
doesn't mean it will create an outcome.
But if there's an outcome,
there's absolutely a mechanism to explain it.
Now, let me give you an example
of why this stuff can be so complicated
and why it's so easy for people to,
if you wanna create a narrative,
you can always find a study to create a narrative.
Aspirin, we would agree, is an anticoagulant.
There's a reason they give it to patients
who are at risk for heart disease or a heart attack.
It's because it reduces blood clots,
reduces coagulation.
It also activates pro-coagulant pathways.
But the overall outcome is anti-coagulation.
But if I wanted to create a narrative that aspirin was bad for blood clots,
I could say, well, look at these biochemical pathways it activates.
And you see this, like, for example, I could create a narrative that smoking is not bad for you.
Okay? Like for example, I could create a narrative that smoking is not bad for you.
I remember reading a meta-analysis of the effect of smoking on the risk of adenocarcinoma.
And there's a forest plot with probably about 50 studies.
And most of those studies are to the very far right of the line, which is increases
risk.
And I think the overall effect was like three or 400% increased risk of adenocarcinoma.
But there were two studies that were to the left of the line, not by much, and it wasn't
statistically significant, but I could say, hey look, I could cite these two studies,
PMID, you know, they showed no increased risk of adenocarcinoma and actually might be slightly
protective. And by the way, did you know that smoking decreases the risk of Parkinson's
by 30 to 40 percent? And by the way, that's very consistent in literature.
Yeah, that's true.
So I can start creating this narrative that smoking, but we know smoking is not good for
you. It's not good for you. It raises the risk of lung cancer, all different kinds of
cancers, cardiovascular disease, massive increase in risk, right? But I could thread the needle of science
using these cherry picked studies.
And so what I'll tell people is if I go into a topic,
if I go into something,
what I'm looking for highest quality of evidence is,
first off, do we have some meta-analyses on this topic?
Right?
Do you want to just explain for the general listener
what a meta-analysis is?
Sure.
Just in kind of top contour.
Absolutely.
So a meta-analysis is basically we are trying
to compile studies that ask similar questions
and look at what is the overall effect?
Do we have a consensus in the literature?
And usually they're gonna show some kind of forest plot
of all these studies and however, far right or left
of the center line is kind of giving you an idea
of how powerful the effect was in that study.
And then you can see the confidence intervals
in terms of how much variability there was.
And then you can see the thickness of the dot on there,
which shows how much it contributed to the overall analysis
by usually
how many subjects were in it.
Right, one study with 10 subjects
would have a very small dot compared
to a subject with 500 subjects.
Exactly.
And so you're trying to, now you can do a bad meta-analysis
based on inclusion criteria, you know,
and that's where it's important to look at,
but let me give you an example of a meta-analysis
I cite pretty frequently.
The inclusion criteria is very important to make sure that you answer the question that
you want to answer.
And I say this when you're reading scientific studies.
I'm like, listen, just because there's a headline in even a paper, just because the conclusion
says something, that is the author's opinion.
You need to check to see, did they actually test what they're talking about
and are the tests they use valid, right?
So this meta-analysis was looking at lower carb diets
versus higher carb diets or low fat diets
and the inclusion criteria,
this was done by Kevin Hall of the NIH back in 2017,
I'm gonna say.
And I thought he did a great job at the inclusion criteria, which was,
we're only gonna include controlled feeding trials
where the food is provided to participants
because obviously we know the limitations of,
you know, free living studies with nutrition.
Right, self-report.
People sneak, people forget.
We are going to make sure that these studies
equated calories for the reasons we talk about.
You gotta compare apples to apples, right?
So a lot of studies will come out saying
fasting produced more fat loss, low carb,
but then they didn't control calories,
and it's very likely these people just ate less.
So they controlled calories, and they controlled protein,
which is also important,
because protein changes the composition of weight loss.
Protein has a thermic effect, protein increases lean mass retention, so that can change how much
fat you lose. And I think that also had a requirement of like a minimum of four weeks,
right? And the outcome was looking at changes in fat mass, not fat oxidation, not energy
expenditure. It actually looked at the outcome that they cared about
and they showed no difference, right?
So I thought, well, that's a very well done meta-analysis
because the inclusion criteria make a lot of sense
for the question that they wanna answer,
which is not is one diet easier to stick to,
not is it more practical?
The question was mechanically,
do these diets produce differences
when we're comparing apples to apples in actual fat loss?
And the answer was no, right?
So, and then when you look at the other meta-analyses
that have been done, they tend to kind of support that,
right?
So the first thing I'm gonna look at is,
all right, these meta-analyses tend to be looked at as kind of the highest form support that, right? So the first thing I'm gonna look at is, all right, these meta-analyses tend to be looked at
as kind of the highest form of evidence, right?
Because you're compiling a bunch of different studies,
which, listen, we know there are bad studies that get done.
I think the amount of studies that get like
just straight up faked is probably much lower
than people think, but-
One hopes, but yeah, I would agree.
I think that people make errors.
I do think that a lot of quote unquote bad papers or let's just say false conclusions arise from elimination of data that did not fit the person's desired outcome.
And the reason I say that is I think it's impossible to control for.
So you've got the student or postdoc doing the experiment, the results don't come out
the way they would have preferred.
And then there, let's just say I've observed before, never in my laboratory, fortunately,
but cases where people come up with reasons why that particular experiment wasn't valid
because the mice were initially sick or the drug, the lot of drug that they used wasn't it was heading towards expiration they come up with reasons to
exclude mm-hmm rather than outright data fabrication where people literally
create results that aren't there yeah and you know and there are a number of
different examples throughout history that where people have done that but I
like to think that those are more rare I think that's probably pretty small my
experience the same as you I didn't see much of that, or I never saw it observed.
Usually end up reading about that
in the form of retractions in journals that come out nowadays
more close to the publications because of AI's ability
to scan images and things of that sort.
Yeah, I think usually if I see a paper
and the conclusion,
like just straight up, I go, oh, I don't know about that.
When I go in and I read the methods
and I read how they analyzed it
and I read how they measured things,
99% of the time I walk away and go,
okay, I'm not surprised they found what they found, right?
Because again, a lot of, and this does happen
and it shouldn't, but a lot of studies are set up
to kind of find what people want to find.
You can bias things in a certain way.
Well, and what nobody talks about
where it's not discussed enough is that a lot of times
the way the paper is written poses a question
after the results are in.
I mean, and this is a really a not correct way
to do science.
I mean, in clinical trials, one has to wage a hypothesis,
excuse me, wager a hypothesis from the outset.
And then you go test that hypothesis.
You're not asking a question.
You're saying what you're gonna measure.
Right, exactly.
Whereas in more typical laboratory science,
people will design an experiment, they have hypotheses,
but then depending on how the
experiments work out or don't work out, oftentimes they'll change the question, they modify the
hypotheses and one wouldn't as a reader, as a journal, as a reviewer, one will never know.
And so that's a slight of hand that is, I would say, unfortunately is very common in better science.
But I will say, like, there's very rarely
when I say this was a bad study.
Often what I'll say is, you know,
I don't agree with their conclusion based on their data
and their design, but the data is the data, you know?
I was just very fortunate, again, to my PhD advisor.
I have so much gratitude, because he just right away
was like, hey, if we're wrong
about something, that's fine.
I'll give you an example of how results can seem to conflict, but how things are designed.
We actually wanted to test, does protein quality make a difference?
And we wanted to look at it at not low, but just kind of like RDA levels of protein.
And we saw that protein quality did make a difference at those levels of protein.
But if you look at experiments where people are feeding
like high levels of protein,
like 1.6 to two grams per kilogram of body weight,
you don't really see much difference in lean mass
or protein synthesis with looking at different
protein sources.
Well, that's because it's much more regulatory on a low end
because you're closer to those thresholds
that trigger that signaling.
And so, we wanted to show at that level
that it made a difference,
but then we also acknowledged, okay, at this level,
it probably doesn't make as much of a difference.
But people can read those things and say,
well, I don't believe studies because they're conflicting,
but know when you read how it was designed,
I can easily say, like I remember there was a,
somebody sent me a study and said,
well how does this fit with your data,
which they were comparing rice versus whey protein,
and found that both stimulated protein synthesis
to the same degree.
And I said, well they used 40 grams of protein.
Like if you get protein high enough,
you can max out protein synthesis
regardless of the form of protein you're using.
And so that's just like one of those examples, right?
So when I'm looking through this stuff,
I'm looking at, okay,
does there seem to be a consensus in the data?
And then is it like in these meta-analyses,
does the inclusion criteria make sense?
And then if there's no real agreement
amongst the meta-analyses,
then I'm looking at, okay,
what do the most tightly controlled studies show,
like in the randomized control trials?
And then I'm kind of like basing opinion off that.
But, you know, the hierarchy of evidence, the pyramid,
you have meta-analysis, systematic reviews,
randomized control trials, you have cohort data,
epidemiology and then animal studies
tend to get kind of lumped in together, and then you got like case studies
and so on and so forth, right?
And so all that stuff is valid.
It's all valid.
I think where I spend a lot of time on social media
is, for example, I'll give you a great example.
Someone's saying, well, you don't want to eat
cruciferous vegetables because they have isocyaninates in them,
which can bind to iodine,
and that is going to impair your thyroid function,
lower your metabolic rate, and cause you weight gain.
And so that's a pathway, that's a mechanism.
Is it possible?
I suppose it is possible, right?
That pathway does exist.
Iodine is important for thyroid function.
Isocyaninates do bind to iodine.
You can take any food, even organic food,
and you can find a compound in it
that if you fed it in a high dose,
it would have weird effects, right?
And so the question is not, if you eat something,
are there compounds in it that maybe activate
negative biochemical pathways?
The question is, what is the overall outcome?
And so when these pathways are promoted,
versus let's see if we actually have
randomized control trials in humans
that measure what we actually care about.
And so we do have, like in that particular case,
we have randomized control trials looking at,
okay, cruciferous vegetable intake and thyroid function,
and there's no difference in the outcome.
And so what that says, and then no difference in BMR,
and then actually people who eat more cruciferous vegetables
actually tend to be a little bit leaner,
but that could be a little bit of a healthy user bias,
and they'd probably just eat less calories
because they're more satiated.
But it's certainly not going the opposite direction, right?
And so the point is, again, if an outcome exists, there is
absolutely a mechanism to explain it, but just because a mechanism exists does not
mean you're going to produce an outcome. And I got exposed to this very early
because I cut my teeth on the bodybuilding message boards back in the
day, where it was a bunch of nerds arguing with each other,
mostly who had no background arguing,
but there were some actual sports scientists
and professors who would get on those every once in a while.
This was before social media existed.
And I remember, I was in biochemistry class, this is 2003,
and they're talking about how caffeine inhibits
glycogen phosphorylase, which is a mechanism, and it exists.
Caffeine inhibits glycogen phosphorylase, which is a mechanism and it exists. Caffeine inhibits glycogen phosphorylase.
And so I made this post where I, on the forums,
I said, well, we should be having caffeine
after a workout then,
because it'll help with glycogen resynthesis,
because it'll keep glycogen phosphorylase
from breaking down glycogen.
And somebody came in and said,
you're really like zooming in on a blade of grass
instead of zooming out and looking at the forest, right?
And biochemists, I was guilty of this,
and biochemists by trade, we get very focused on pathways.
But if you think about what caffeine does overall,
activates the sympathetic nervous system,
its function is to like, you're liberating fuel.
Like you, and some people when they take caffeine
actually have a rise in blood glucose.
So that is, the outcome is actually counter
to what that biochemical pathway is.
And so we've gotta be really careful
with how we promote these biochemical pathways.
I mean, I did a really funny post on Twitter
where myself and Joseph Sundell,
I'm not sure if you're familiar with him,
he's a cancer biologist, great guy. And we were joking back and forth, I said, you know what, I bet I could come
up with a pathway to get people to eat poop. Like I can make a compelling argument for
just eating poop. And then he goes, I bet, he's like, I'll take that bet. I'm like, okay,
let's give it a shot. So I'm like, what is some of the most common compounds
in human fecal matter?
And one of them is butyrate, right?
Which is a short chain fatty acid produced by fermentation.
Butyrate, so I did this post where I'm like,
here's why you should eat poop to lose fat.
Butyrate increases fat oxidation.
I think it activates brown fat,
increases insulin sensitivity, decreases inflammation.
It's been shown to actually ameliorate I think it activates brown fat, increases insulin sensitivity, decreases inflammation.
It's been shown to actually ameliorate the development of obesity in studies.
And I cited all these PubMed ideas.
Now what I didn't tell people was those are all mostly in rodents, right?
And it's giving an amount of butyrate that you'd need to eat about 50 to 100 pounds of
fecal matter a day in order to get, right?
This is sounding like a worse and worse idea by then.
But that is very similar to a lot of the content
that is out there, which is find isolated compound,
scare people or promote it to be the best thing ever,
and then link it to an outcome.
And then sometimes you can tie in epidemiology
with it as well to support whatever you want.
But again, like I'm not saying, I do things in my training and my nutrition that don't
have randomized control trials to support, right?
They don't really have anything to support.
It's just, it's how I've kind of fallen into doing things.
So that's okay.
But what I wouldn't do is come out and say, what I do is the best thing ever
and here's why, especially if there was human randomized control trials to the counter.
That is the biggest thing, right?
If we have human randomized control trials and they're going the opposite direction of
a case study or an observation, there's a reason human randomized control trials, I
scream about them all the time, and why they're considered the gold standard evidence.
When we look at cohort data, you're just observing people. I scream about them all the time and why they're considered the gold standard evidence.
When we look at cohort data, you're just observing people.
Maybe explain what cohort data are.
Is it comparing two groups?
Sure. So cohort data, you're comparing groups, but you're not having an intervention.
So you're tracking them over the course of however, what period of time.
A lot of cohort studies like looking at cardiovascular disease, cancer.
These people decided to be vegan. These people decided to be, let's just say omnivores.
Omnivores, yeah.
Those are some of the classic experiments, right?
And there was, they weren't assigned to this experiment.
They agreed to join the experiment.
They've been eating this way for a while.
Right.
You ask them a bunch of questions.
And you look at, okay, over 10 years, over 20 years, who gets whatever more often or
less often, right?
And then we try to figure out and about calculate, okay, what's the effect and is this real?
The problem is you have a lot of bias with those sorts of studies, meaning people don't
do single habits.
They don't isolate habits.
I actually put up a rule the other day
from my appearance on Stephen Bartlett's podcast
where he said, if I wanna fix my diet, I go to the gym.
Because a lot of people do that.
If they're training in the gym,
they don't wanna waste their effort
by having a subpar diet.
Now in reality, eating a healthy diet is more important
if you're not going to the gym, right?
Because at least you're getting something.
But people do this habit coupling,
and so it's really hard to disentangle
those sorts of things.
Now the reason that human randomized control trials
are important is if you're designing an experiment
and you randomize what you are doing
by randomly assigning people to groups,
you're washing out that bias because you can assume that
whatever inherent characteristics that might be coupled to whatever you're going to try
are going to be randomly distributed and evenly distributed across the groups.
Therefore, we say human randomized control trials are kind of what's needed to establish
causation because by randomizing, you can assume whatever differences
are observed between the groups are due to your treatment
and not due to random chance or data artifacts.
Now, randomized control trials, especially in nutrition,
have very strong limitations,
which is you can't do a randomized control trial
for 30 years.
You can't, I mean, I think the longest randomized
control trial I heard about in nutrition
was like two years long, right?
And even then, it's not gonna be a very tightly controlled
randomized control trial.
I mean, and if you're doing, if you're talking about
like the tightest level of control,
like a metabolic ward study, four, six weeks, maybe,
because you're keeping people in food jail.
And I think where some of this confusion comes from
is I think people think that there's just like this pool
of people waiting around to be selected for experiments.
Like, yes, I'm ready, I've been waiting here.
No, there are people like you, like me,
like just the average person walking down the street
who saw a flyer and goes,
okay, I'll volunteer for that.
And the more control you try to establish over their lives,
the less likely they are to do it.
And you've probably got to pay them.
I don't know anybody who would do a metabolic ward study
without getting paid for it.
I mean, you're basically giving up
four or six weeks of your life to go do that.
And so while I love human randomized control trials,
for some things, they're not always appropriate.
For example, if you're trying to look at heart disease
and you want to do a one-year human randomized
control trial, looking at, say, saturated fat,
LDL, cholesterol, those sorts of things,
well, how many people have heart attacks
within one year after age 60?
I mean, it's gonna be a really, you're gonna look
for really small differences between
really small numbers, right?
And the problem with that is you have no idea
about their diet 40 years leading up to that.
And we know based on now the Mendelian randomization trials
that the risk of LDL is more of like a lifetime exposure risk.
It's not just in this narrow sliver of time.
And so I love human randomized control trials,
but it's also, I try to tell people,
never turn your brain off.
Just because something gets published in a certain journal, just because a certain researcher
said something, just because it was a certain design, it doesn't make it infallible.
Science is perfect.
Science is perfect.
Science is what is.
But it's done by humans.
And humans are fallible, imperfect people with their own personal beliefs
and biases.
And that's why I look at consensus of data first.
Because yeah, you could, maybe some experiments got faked or maybe they had, but when it's
done over, let's take something like creatine monohydrate, right?
You have thousands of experiments done over decades of time in hundreds of different
labs with many different funding sources in a bunch of different countries under a bunch
of different conditions.
It works, right?
Like if you go to consensus and you type in, does creatine build muscle?
It's like 92% yes, which is crazy.
Right, consuming five to 10 grams
of creatine monohydrate per day is going to benefit
strength in muscle mass and likely cognition
to some extent.
Oh, yeah, yeah.
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I realize I've been on a long diatribe.
No, no, I wouldn't even call it a diatribe.
I think for those listening, like this is pure gold
because never before, certainly on this podcast
or other podcasts, has anyone ever really spelled out
how to discern differences in quality of evidence?
And it's mostly a free world, most places,
and people can do what they want,
but I think they need to decide
what their thresholds are for quality.
Yeah, and I think the one other thing I'll tell people is,
I saw this the other day, I saw somebody post,
I think it was a comment on one of my posts,
I actually commented back, I think it was a comment on one of my posts, I actually commented back.
They said, you know, I just, I know I can trust you and I just, whatever you say, I
know I can take it to the bank.
And I said, I appreciate that, but I am a flawed human like anybody else.
Please don't turn your brain off.
Like, and one of the things I've really tried to do now in this stage of my career is I want to teach people how to think.
Because if I just give you the information and I'm giving you a fish, great.
But I'd rather you understand how I came to these conclusions.
You can see my logic and how it tracks and then you can start applying it elsewhere, and one of the things I say to people is I'm like,
if you want a quick and dirty hack for knowing who to follow,
try not to listen so much to exactly the information
people say, but listen to how they say it, okay?
I was just telling you, I was on a podcast the other day
where I said, you know, here's this study,
I might butcher the details, and if I get the math wrong,
if experts out there want wanna comment and correct me,
please do that.
Like, that is a way of talking about something
where you're saying, hey, I could get this wrong,
or hey, I might be uncertain.
That's very different than saying, you know,
just hard, pure, you know, real experts don't really talk
like best, worst, always, never.
They don't really use words like that.
One of my favorite phrases that I tell people, it's actually from an economist named Thomas
Sowell, is that there are no solutions, there are only trade-offs.
For example, there's data out there that if you lower saturated fat, it may lower your
testosterone.
But there's also data out there that saturated fat raises LDL, which is an independent risk
factor for cardiovascular disease.
Okay, well, there's tradeoffs there.
What do you value more?
I would argue that probably the decline in testosterone isn't really physiologically
meaningful for most people.
But again, there's not a good or bad. There's trade-offs. And
I think when people get talking about biochemical pathways, one of the things I really try to
hone in on is like, hey, there's not really good or bad biochemical pathways either. All
these things exist for a reason. One of the things popular is like, well, inflammation,
inflammation. I'm like, hey, you know, like, inflammation does some things that we really
need too. You just don't want no inflammation. I'm like, hey, you know, like, inflammation does some things that we really need to.
Like, you just don't want, like, no inflammation.
Like, it's actually an important physiological process,
right, now you don't want it to run away, for sure.
And so again, I just give my PhD advisor
a lot of credit of, he's like, know what you know,
but always question everything, even the things we feel most fundamentally are true.
Because that is the job of a good scientist. I'll give you one more story and then we'll move to
another thing. When I did my first experiment, well actually, sorry, no, this has been like my
15th experiment because my first 14 blew and didn't work. A typical graduate career.
Yeah, yeah.
And again, very patient man, very supportive.
I honestly cannot give him enough credit.
And if you look at the people that came out of that lab, a lot of studs.
So I did an experiment looking at whey protein, or sorry, complete meal with whey protein ingestion
and how long the duration of muscle protein synthesis was.
Because most people kind of measured it 60 or 90 minutes,
like the snapshot post-Prandula for protein synthesis,
looking for a peak and we're like,
is that really where the peak is?
We don't know, we're basing this off of a purified solution.
So let's do a duration experiment, right?
And my hypothesis was, well, however long leucine
is elevated in the blood is gonna be
how long protein synthesis stays up.
And when we got the data back on protein synthesis,
protein synthesis had come up, peaked at 90 minutes,
and by three hours had come back down to baseline.
And I went to run the plasma amino acids,
and I'm like, okay, well, this is what we're going to see. And that's not what we saw. So plasma
amino acids not only were still elevated, they were like maxed out or plateaued at the
highest level they would be at three hours where protein synthesis was back to baseline.
And so I said, okay, well, it's got to be mTOR signaling. mTOR signaling has got to
be turning off or something's happening. Nope, mTOR signaling was still elevated, right?
And we saw this through phosphorylation of the binding protein for EBP1, which is a proxy for mTOR activation
And then I said, okay. Well, maybe
Leucine isn't getting into the cell. Maybe that's why. So we looked at intracellular leucine
Followed the exact path of plasma leucine.
And so then I kept rerunning the plasma data over and over.
I probably ran it five times, right?
And Layman finally calls me into his office one day
and he goes, so where do we stand
with this duration experiment?
And I said, yeah, it's almost done.
I just, I gotta run the data again
because the plasma data has gotta be wrong.
And he, I saw his like little eyebrow go up, you know,
and he goes, why do you think that?
Let me see your data.
He goes, your standard air bars are good.
This looks to be relatively tight data.
How's your technique?
And I'm going through like how I, you know,
all the steps of to analyze plasma amino acids.
It's not like CSI, by the way, everybody,
you don't just take a pipette,
put something in a centrifuge,
and all of a sudden you get back data.
There's many steps in here.
And so I showed him all that, and he goes,
you know, it sounds like you are trying to get the data
to fit your conclusion, and what you need to do
is change your conclusion to fit the data.
And that one line, again, it just opened my whole world
up to one, if I'm wrong, okay, cool.
Like, I care more about getting the right answer
than being right.
And that's why we were talking earlier, I'm like,
there's so much stuff that I just don't believe.
I wanna see 10, 20 studies before I go, yeah.
And the other thing I'll tell people is,
hey, I don't plant my flag real strong very often.
So when you see me do it, I'm not saying I'm not fallible,
but if you see me do it, you probably should pay attention
because I don't usually do that.
I love that description, but now my curiosity is peaking.
You got to tell me, so if 90 minutes after ingesting protein,
protein synthesis peaks,
and then it drops to baseline at three hours,
but leucine, one of the key amino acids, and mTOR,
which is in the pathway of cellular growth
and protein synthesis are still elevated three hours,
what is the conclusion that explains the discrepancy?
Yeah, so we actually looked for this for years.
So a few things, there was some other studies
that supported that.
We called it a refractory response.
Actually, we didn't name it that.
There was another lab that named it that.
Basically, that protein synthesis was becoming refractory
to the signal for protein synthesis.
So just for real quick,
I'm gonna try and explain this easily.
So protein synthesis, you know,
this sounds like probably a very abstract thing,
but it's how your body makes more protein.
And whether it's in skeletal muscle,
whether it's in the liver, whatever,
you have your DNA, which is your genetic code, right?
And then that gets transcribed to an mRNA.
By the way, I'm leaving out a lot of steps here,
but just bear with me.
That mRNA gets translated by a ribosome
into a polypeptide chain or a protein.
So a ribosome is basically attaching to the mRNA
and then based on the mRNA sequence
is bringing in amino acids to match that sequence.
So all the proteins in your body
are coded for in your DNA, right?
So when it comes to this process, there's a complex called EIF4F, which acts as a scaffold
for the ribosome to hook on to the mRNA.
And EIF4F, the formation of it, is basically rate limited by the association of two proteins
called EIF4E and EIF4G.
And EIF4E is bound by a binding protein 4-EBP1.
And when you stimulate, when leucine stimulates mTOR,
mTOR stimulates the phosphorylation of 4-EBP1,
which makes it unavailable for binding with EIF4E,
it can bind to EIF4G,
that EIF4F complex can be made,
brings the ribosome onto the mRNA,
and now it can read, it can translate it.
So there's a little cellular biology lesson for you.
Yeah, and if people didn't follow that,
don't worry about it.
What Lain is describing is that the presence
of a bunch of molecules involved in protein synthesis is necessary, but not sufficient for the protein synthesis. A few other things have
to happen. Apparently those other things are not happening after 120 minutes.
So another lab called it the muscle full effect. Basically, the idea is like once you've initiated
that signal, it kind of runs and then it's done, right?
And just pounding more amino acids into the system
is not gonna further stimulate.
In fact, there was a study done back in,
I think it was 2001 by, I wanna say by Renny,
another very well-known protein lab,
and they infused essential amino acids for six hours
and looked at skeletal muscle protein synthesis.
And they found it went up and then came back down
by two hours and then never went back up, right?
Good experiment.
Yeah, very interesting.
So we looked at a bunch of different things.
The only thing we found that perhaps explained
it a little bit, and I'm sure there's other labs
that would argue with me on this,
and again, this is in rat skeletal muscle,
which by the way is a good model
for human protein metabolism, but still.
We looked at intercellular ATP levels
and actually found that they were declining
kind of in concert with the decline
in muscle protein synthesis.
And muscle protein synthesis is an ATP dependent process.
But the process of protein turnover
is energetically expensive.
It's one of the reasons that protein
has a higher thermic effect of food.
And so our hypothesis was perhaps
by the effect of protein stimulating proteins
that this is to start this machinery
is energetically expensive enough
that eventually you kind of run out of steam.
And so you have the signal there,
but it just kind of ends, right? Now there
have been other experiments like Jordan Tromelin just published a paper a few months ago that
got a bunch of, you know, feedback of 100 grams of protein after a resistant training
exercise and saw, you know, that it was basically like a lot more of it was used than we thought
would be used. Right, because for many decades,
it has been purported, believed, and propagated
that the maximum amount of protein that you can utilize
after a meal is 30 grams.
It became the holy number.
And this study essentially showed
that more than 30 grams can be used,
not just as energy,
but for the sake of protein synthesis in muscle, correct?
Yeah.
And how did that study land with you,
given that it's one study,
without going into all the details,
did that inspire you to change anything
about your protein intake after training?
So what I tell people is I don't make big shifts
in my opinions based on single studies.
Yeah, why does that not surprise me?
It shimmies me a little bit, right?
So, and what, even before that study came out,
what I had said is, I think protein distribution matters,
but I think it matters much, much less
than total protein intake per day.
Cause all we need to do is look at some of these
resistance training studies with intermittent fasting,
where people are eating all their protein
in an eight hour window,
and theoretically you would think
they would get less muscle growth,
especially based on this refractory data,
because less time to stimulate.
But at least in the studies out of Grant Tinsley's lab,
I think there's two studies that were very well done,
where we don't see that.
Now, important to point out,
they trained during their feeding window,
and they had three,
they made sure they ate three high quality,
high protein meals during that eight hour time, right?
So at least in that context,
there was no difference in the amount of lean mass gained
between intermittent fasting groups
versus continuous feeding groups.
Now-
And in the continuous feeding groups,
do you recall what duration they were eating their meals over?
Was it probably 12 hours or so?
I don't recall specifically,
but I don't recall an actual defined time.
I'd have to go back and look at it.
More than eight hours.
For sure.
You know, I'm so glad we're landing here
because my first, let's just call it sort of operational
or actionable question, which came from,
you know, asking on social media for questions for you was many, many people, if not in the thousands,
asked how to make sure that they're getting enough protein
if they're doing something like intermittent fasting.
And I myself fall into this category.
I don't do it for any specific purpose.
This was long before Sachin Panda started doing his work
on time restricted feeding, AKA intermittent fasting.
But I don't tend to want to eat any food until about 11 a.m.
Occasionally I wake up hungry like this morning
and I had some eggs, I was particularly hungry.
But I think that's representative of a lot of people.
I want hydration and caffeine in the morning.
I want to train in the morning
and then I want to eat pretty soon after I train.
But what that means is that I'm eating
during an eight to nine hour feeding window.
And if I only manage two meals in there and a snack
and I can only assimilate, or excuse me,
I can only put 30 grams of protein per meal
toward protein synthesis.
We have to be careful not about using it for energy,
but toward protein synthesis.
Does that mean that I'm not going to hit my target
of one gram of protein per pound of desired lean body mass?
Cause I'm a hundred kilograms. I weigh about 220 pounds.
I can easily eat 220 grams of protein
in a nine hour period.
Like give me three rib eyes. I'll eat all three.
I love a ribye steak, right?
But the question is, can I use that?
So, and I'm going to bring this back around
to that particular experiment.
So over time, and when I left grad school,
my position was that it matters,
protein distribution matters.
So I'll give you the straight down the line
scientific answer, and then I'll give you
if you inject me with true serum
what I really think answer.
And so we did an experiment, again, in rats.
We fed them completely same diets,
same total calories, protein, carbs, fats.
But in one group they got that pretty much evenly
across three meals and the other group,
70% of their protein was coming at their last meal.
And then the other two meals were like 15% protein,
15% of their daily protein.
And 11 weeks, again, 11 weeks out of a rat's life,
rodents live 18 to 24 months,
that's a big chunk of their life, right?
And we did see about a five to 10% difference
in the weights of the hind limbs in terms of muscle mass.
Okay, so we-
In what direction?
Favoring equal distribution, right?
Now again, hard to repeat that study in humans, right?
And for the duration it's done.
So I came out saying, you know what?
That's actually less than I thought we were gonna, I thought we were gonna find bigger differences than that. You know, because I mean, that's actually less than I thought.
I thought we were gonna find bigger differences than that.
Because, I mean, if you're thinking about number of times
you're stimulating protein synthesis,
I mean, one per day versus three per day,
I mean, shouldn't there be like
a pretty significant difference there?
And it was, I mean, it reached the level of significance,
but again, I thought the effect size
was smaller than I thought.
And so I kind of walked out saying, you know what, total protein intake is the most important
thing per day.
And then if you can distribute it relatively evenly, that's maybe the last 5 to 10%.
And you've seen some human studies where it seems to matter, most seem to show it doesn't
really matter that much.
Here's what I think.
If you're measuring an outcome like lean mass,
that doesn't change much in eight weeks, unfortunately.
It's very small differences.
And so I think it's gonna be hard to detect that.
But what I'll tell people is, if you're asking,
can you build muscle in intermittent fasting?
Absolutely.
Can you build a lot of muscle?
Probably.
If you are a bodybuilder, specific population, or if your goal is to be the most muscular, strongest human
being you can possibly become, I think you're probably better off not doing
intermittent fasting just because those last, that last 5% may make a big
difference and you're never going to be able to pick that out of a human those last, that last 5% may make a big difference
and you're never gonna be able to pick that out
of a human randomized control trial in eight weeks.
At least I don't think you will.
And so again, I don't have any human data
to really back that up,
but just based on what I know about signaling
and the effects we saw on animals,
that's kind of my recommendation.
But most people don't fall in that category.
Most people are just worried about,
hey, I wanna look good, build a little bit of muscle.
Intermittent fasting is a perfectly fine tool
for doing that.
I will say, obviously we haven't studied
some of the more extreme forms of fasting
in terms of building muscle, right?
Like the 16-8 has been studied,
but I'm thinking of a study that was done
without resistance training,
alternate day fasting versus continuous kind of normal feeding.
One day no eating, next day eat.
Right, so they did.
Brutal.
They did.
Or at least for somebody like me.
I can't think of anything worse.
I'd rather fast for three days in a row
and then eat for four days in a row
simply because I know that by day two
it's probably gonna get easier, not harder.
But on off fasting eating's gotta be just torturous.
So the way they did it was they did,
the continuous group was getting 75%
of their maintenance calories per day, so in a deficit.
And then the alternate day group was doing 150%
and then zero, right?
So you're getting an average of 75.
And they actually saw differences in lean mass
at the end of that study.
The continuous feeding group lost less lean mass
than the alternateday fasting group.
So that's only one study
and it didn't have resistance training.
It's possible that resistance training
could attenuate some of that stuff.
But what I'll say is, you know,
the more extreme forms of fasting
probably aren't optimal for lean mass, right?
Also, can you imagine training
on a day of complete fasting?
Three hours after that, you're going to be dying.
And then you can say, well, you could just train
on the days when you eat.
But then, if you ever train legs hard,
which I know you do, or if anyone does,
and then the next day you're not gonna eat anything,
the day after training legs properly,
my appetite's increased.
Yeah, so I think this is where the rubber
kind of meets the road in terms of straight down the line,
the randomized control trials say this,
but I still do something a little bit different, right? Because the
randomized control trials say, protein distribution doesn't really seem to matter, right? But
again, you inject me a True serum, I think it probably does matter a little bit, right?
Now, does it matter as much as total protein? Absolutely not. That is by far the biggest
lever. But again, if my context is I want to become
the most muscular, strongest human being I can be,
which I do, because that's where I compete,
I'm going to distribute my protein
probably over four to five meals per day, right?
And so for you, just personally,
what time of day do you wake up and when's your first meal?
So, well, it's summer right now, so kids are off of school.
So we're usually getting up around like 7.30,
eight o'clock in the morning.
And my first meal is usually within an hour.
And then I usually eat within an hour of going to bed.
And then I'll have two or three meals in between those.
So usually I have about four meals a day.
Sometimes I'll have five, if it's just a longer day
or just how my timing kind of goes or whatever.
And does each one of your meals include
approximately 30 plus grams of quality protein,
some starchy carbohydrate, fibrous carbohydrate,
and some fat?
I mean, sometimes they end up being like
mostly protein or whatnot, but for the most part,
there's a mix in each one.
And usually around 50 grams of protein at a meal.
About 235 grams of protein a day.
Some people would argue that, oh, that's more than you need.
The researchers are showing that 1.6 grams per kg
maxes out the response.
Here's the thing.
And again, this is where like,
scientific experiments are big blunt instruments, okay?
They will tell you what not to do more often
than they will tell you what to do, okay?
When it comes to protein, my personal opinion,
and this is just, I guess, a little bit of intuition
based off of 20 years of studying this stuff,
is that I don't know if there's an actual amount of protein
that maxes out the protein synthesis response.
I would bet if I was a betting man,
that it's kind of an asymptote.
You're familiar with, yeah.
So you're-
Not everyone's watching.
I just drew an asymptote.
Right, yeah.
An asymptote plot.
But for those who aren't watching,
just think about a plot quickly rising very, very high
and then essentially stays stable at the high level.
Yeah.
Maybe with a slight bit of taper.
Yeah, so it's easy to explain if it's going towards zero.
So an absinthe taupe might be, okay, you start out,
you have 10, then five, then two and a half.
So you're running in the opposite direction.
Right.
Still, as some taupe going from high to low.
Right.
As some taupe can go from low to high,
it can go from high to low.
Correct, so I'm trying to explain it because it makes more sense when people kind of go this way.
But you never reach zero, but it keeps getting incrementally closer. On the other end,
I don't think protein synthesis ever maxes out. I just think the increment of increase becomes so
small that practically there's no difference and you wouldn't see a difference in outcome, right?
And so, I think that, you know, one, you know,
there's debate over is it 1.6 grams per kg,
2.4 grams per kg.
And there's even been a meta regression
that showed up to 3.3 grams per kg, it had benefits.
I think a lot of this is with protein synthesis,
you're looking before small differences
between small numbers.
It's not a very sensitive analysis,
to be quite honest with you.
And again, we would never be able to pick out those.
I'm thinking about, there was a study by Stu Phillips,
if people don't know who Stu Phillips is,
he's the best researcher going
in protein metabolism right now.
But one of the best,
so I don't wanna take anybody off.
And he did a study probably 15 years ago but one of the best, sorry, I don't wanna take anybody off.
And he did a study probably 15 years ago where they gave people different levels of egg protein
and they looked at five, 10, 20, and 40 grams of egg protein.
And their conclusion was that 20 grams of egg protein
maximized the protein synthesis response.
But that's because straight down the line,
if there's a p-value of more than.05,
you can't say there's a difference, right?
But if you looked at the absolute difference
between 20 and 40 grams, I think it was like 11%.
And if you look at the graph,
it almost looks like the start of an asymptote, right?
Now this was one study, wasn't a huge subject number,
but that's kind of where my personal thoughts land on it,
that there's, that kind of where my personal thoughts land on it.
That kind of also support this, okay, 100 grams in a meal could still be utilized, is
I'm not sure if there's a max-out.
I think there's a practical max-out where you get to a point where, hey, you're like
slamming down 50 grams more protein for.0001% more protein synthesis.
It doesn't make sense.
But yeah, we'll never be able to, I doubt we'll be able to pick those numbers out in
actual scientific experiments.
And the other thing to keep in mind with this whole protein metabolism picture is we're
really only talking about one side of this equation.
So net gain or loss of skeletal muscle mass is the balance between protein synthesis
and protein degradation.
And most of us protein researchers
just kind of stick our fingers in our ears
and go la la la la when it comes to protein degradation
because it's so incredibly hard to measure.
And so, yeah, like when we start
to put all that stuff together,
it's like now this picture gets really complicated.
So what I tell people when it comes to that kind of stuff
is listen, you could really get into the weeds
on this stuff.
The big rocks are about a gram per pound of body weight.
If you want to really, for all intents and purposes,
max out the anabolic response, you're going to be fine.
One gram per pound of body weight,
which is what Dr. Gabrielle Lyon
also essentially recommended.
Right, I'm probably like, you know,
real sticklers might be like,
no, it's actually more like 0.7 or 0.8,
and then it's, well, it's actually based on lean mass,
which I agree with, but just for all intents and purposes,
you could say, you know, your body weight,
ideal body weight, whatever it is,
that number is going to be very sufficient
for maxing out muscle building for the majority of people.
And we should probably point out,
not just for muscle building, unless you disagree,
and feel free to, of course,
not that I need to tell you that.
Dr. Gabrielle Lyon, when she was here,
made a really key point,
which is that ingesting sufficient quality protein each day isn't just
about building muscle, even for folks that don't want to build muscle. And perhaps even particularly
for women who assume that, you know, building muscle is, it can be a runaway process that maybe
they're going to build too much muscle. That's a false assumption, of course, that ingesting one
gram of protein per pound of body weight
or ideal body weight is going to be beneficial
because it's going to improve muscle quality,
one's own muscle quality, the health of the muscular tissue.
And then she did an excellent job
of relating the health of muscular tissue,
skeletal muscle that is, to overall health and longevity.
So I just raise that because I know that many people
listening to this probably want to add a little bit
of muscle here or there.
Some perhaps want to keep the muscle they've gotten
loose fat and some of course want to add a lot of muscle.
But it sounds like the recommendation is always the same.
Since we need to eat sooner or later,
one gram of quality protein per pound of lean body mass
or current body weight or desired body weight,
that's gonna be a good starting place.
Yeah, for sure.
And I think I would tend to agree with her,
you know, that the process,
because when you eat protein,
you're not just gonna start laying down slabs
of lean tissue just from eating protein.
There has to be a stimulus, which is resistance training.
Or some people are, you could stretch really hard
and get the same thing, which there may be some evidence of that.
With weights and lift them in between stretches?
No, I'm just kidding, which is basically weight lifting.
There actually are studies now where they put people
in really kind of hardcore stretching for several minutes
and they actually see hypertrophy with it.
Yeah, very interesting.
We could talk about those if you wanted,
but the point is either way, it's mechanical tension, right?
So that's the stimulus to build muscle,
to lay down lean tissue.
But the process of remodeling is probably beneficial
for multiple reasons.
So when you eat protein, like we said,
synthesis goes up, degradation goes up, right?
Because you're stimulating that process.
You're stimulating protein turnover.
One, that's relatively energetically expensive, all things being equal, so that's
where the thermic effect of protein comes from. Because people will say, well, it's
the urea cycle and this and that. Most of those ATPs you get back in different phases
of that cycle. Really, in my opinion, the thermic effect of protein is due to that kind
of activation of this futile cycle of you're building more protein but then you're also breaking down more protein. And so part of that
is you are remodeling. You are making sure that that protein is higher quality in that tissue by
continuously breaking it down and building it back up. And so I would probably agree with that.
And then again, even if you're in a resistance training program where you're not really building
much more muscle anymore, the process of remodeling is probably good for you.
And I would just say try to ally some of these concerns from people who are concerned about
getting too much muscle.
So I have been lifting really hard consistently
for 25 years.
I am very comfortable saying I train harder
than almost anybody else you can possibly imagine.
And anybody who has trained around me will back that up,
back me up in the comments.
I train very hard.
And in a shirt, I look like an athletic guy who lifts.
I don't look like a monster.
You might see pictures of me
when I was a bodybuilding show, very, very lean,
and that looks over the top,
but for the most part, I just look kind of athletic.
And I spent my entire adult life trying to get too big.
So for most people,
unless you're on performance enhancing drugs drugs or you just have incredible genetics,
that's not going to happen. And if it starts to happen, just back off on your lifting. Easy fix.
So I think most people's concern with that is a little bit misplaced.
And the other thing I'll tell people is like, hey, some of these like fitness,
like especially like for women,
a lot of these fitness models you follow,
they show you certain workouts they do,
they built that physique by lifting weights, right?
And you're thinking that's a toned feature.
Now that person is actually pretty muscular, right?
And so again, especially for women, there are exceptions.
Some people, some women have very great genetics
for building muscle.
They usually wind up in track and field, that sort of thing.
But it's very hard to get too muscular for a woman.
And what I'll say is like, you know,
typically muscle looks good and fat is what makes I'll say is like, you know, typically muscle looks good
and fat is what makes you kind of look bulky, you know.
So again, I don't want to play with too broad of a brush,
but I would say that you don't really have too much
to worry about when it comes to getting too muscular.
I'd like to take a brief break
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Since we're sort of in this realm of protein,
maybe we build out from there.
So a lot of questions related to something
akin to the following.
So, okay, so somebody strives to get one gram
of quality protein per pound of body weight per day.
And I realized that whether somebody follows
a pseudo intermittent fasting thing
where their first meal does, you know, around 11
and they end, you know, and they finish up eating
around 8 p.m. or a more traditional eating schedule
really is just the addition of one more meal
like in the morning.
It's like whether or not you eat breakfast.
And of course some people shift it the other way.
They start with breakfast and they don't eat dinner.
But I would argue that in order to,
if you have kids or a social life of any kind,
most people can deal with sitting across the table
with someone just having a cup of coffee for breakfast,
but it's sort of awkward.
You limit yourself a lot in life
if you can't eat dinner with other people.
I don't know, at least.
And that's again where the rubber meets the road
with what is practically doable.
Cause there've been some of these
like circadian rhythm studies that suggest,
well maybe early time restricted feeding
is better than late time restricted feeding.
The more high quality, more rigorously controlled,
randomized control trials are coming out now
seems to show that it doesn't really make a big difference.
And some of the, again, the measurements you use matter,
right, so there was actually a very recent study
where they looked at 12 weeks,
they provided all the food to participants,
equal in protein, calories, the whole deal.
The only difference was one group was eating 80%
of their calories before 1 p.m.,
and they had a eight hour feeding window in total.
The other group had a 12 hour feeding window
and were eating over 50% of their calories
after 5 p.m. I wanna say.
And so really like based on some of the chrono nutrition
stuff we've seen from some of the lesser
well controlled trials,
they were expecting to see differences
in like glucose metabolism
and whatnot, and they just didn't really see a difference in anything.
I think the only thing they saw a little bit of a difference was in fasting blood glucose.
And here's what I tell people.
When you see a difference in fasting blood glucose but not HbA1c, you're looking at a
transient difference.
And what I mean by that is HbA1c is such a great measurement
because it's an area on hemoglobin that can be glycosylated.
And so that is very dependent on what is your overall
concentration of glucose in the blood
over a 24 hour period of time.
Because it's exposed the entire time
it's in your bloodstream.
So whether you're getting it, you know,
glucose spikes at meals, or you have higher fasting blood glucose, it's gonna be entire time it's in your bloodstream. So whether you're getting it, you know, glucose spikes at meals,
or you have higher fasting blood glucose,
it's gonna be very reflective
of the overall 24-hour area under the curve, right?
So why do some of these studies see a little bit better
improvement in lowering fasting blood glucose,
whereas HbA1c doesn't show up?
Well, think about it.
If somebody's early time-restricted feeding,
and they finish most of their food intake before 1 p.m.,
they have an extra like six, seven, eight hours
that they're not hardly eating anything,
it doesn't surprise me that the next morning,
because they've technically fasted for longer,
you have a lower blood glucose.
Now, I can't really back this up straight up
because nobody's ever measured it,
but that I think is a logical explanation
while you see some of this stuff.
And that's why I tell people,
the measurement you take really matters.
I think fasting blood glucose is a useful measurement,
but I put much more value on something like HOMA-IR,
euglycemic clamp, or HbA1c.
So anyways, I think the early versus late time restricted
is kind of doesn't matter too much.
Great, you answered a future question right there.
See, I've-
You're telepathic.
Uh-huh, that's what you didn't know about him.
So the scenario here is whether or not meals
are distributed evenly through the awake day
or stacked a little bit more toward the morning or stacked a little bit more toward the morning
or stacked a little bit more toward the evening.
If somebody gets that one gram of quality protein
per pound of body weight,
then they need to make up the rest of their calories
with other stuff.
And we have broadly speaking, starches,
fibrous, you know, fruits and vegetables,
starches, and of course fats.
And weight gain and weight loss,
I think we both would agree,
is where weight maintenance is going to largely be dictated
at this point by the night you consume more calories
than you burn or not.
So assuming somebody's getting that one gram
of quality protein per pound of body weight,
is there any data that support,
or do you believe just by your own experience
that there's some value in stacking the starchy carbohydrates
toward the earlier part of the day
versus the later part of the day?
And this has been an ongoing debate.
Like I, for instance, like a nearly pure protein
and fat meal for the first meal plus maybe a salad, some virus carbohydrates.
And then as they get towards evening, I like more starches
and I actually taper off the protein.
I find personally that matches what I need to do
with my brain.
I'm more alert when I'm drinking caffeine
and hydrating on a backdrop of slightly lowered carbohydrates.
But then as I get towards evening,
taper off the caffeine of course, for me,
because I want to sleep well,
start ingesting some more starches.
It's not starch heavy, but I sleep like a baby.
But everyone would tell me and does tell me,
eating starches late in the day is going to make me fat,
eating starches late in the day is going to do
all sorts of terrible things.
I find the exact opposite for me.
So is there any real evidence that where one places
their starches throughout the day matters?
And let's just forget resistance training for the moment
because there is this post-training window where
if I train first thing in the morning,
I will eat starches at that time.
But let's just remove resistance training for the moment.
So again, rubber meets the road in practicality
versus what hardline research says. So I am
not real convinced at all that it really matters when you eat your carbohydrate.
Thank you, thank you. I knew I brought you here today for a reason. No, I brought you
here for many reasons.
Is that my bias has been validated? I can leave now. So I really try to get people focused
on the stuff that matters the most, right?
So this is, if we're worried about carbohydrate timing,
even if there are differences,
we are zoomed way in on the blade of grass, right?
We're not zooming out all the way.
And I think, hey, if somebody likes
to eat more carbohydrate in the morning
and that fits their lifestyle
and that is easy for them to continue to do,
then I would say do that.
And could I add in terms of not focusing on a blade
of grass, but something that I consider a major lever,
if eating fewer carbohydrates in the afternoon
and evening doesn't impede your sleep, then you're okay.
But I would argue if anything is interfering
with your sleep on a consistent basis,
you've got a serious problem.
Yeah.
So there are no solutions, only trade-offs, right?
And when it comes to carbohydrate intake,
you'll hear people say, the data's all over the place, okay?
In terms of like timing and how people feel.
Some people say, well, I feel sleepy after I have carbs.
Some people will have, I feel great after I have carbs.
Like I'm ready to go lift.
I have a big carb meal before I go lift.
It seems to be all over the map.
Now, here's the thing what I'll tell people,
because people ask me how I eat.
People have wanted me to do a full day of eating video,
and I've kind of put it off for a while,
because I'm like, so much of the stuff I do,
I'm not going to give you guys a citation for,
and I know you're going to want it.
And some of the stuff I do,
because I just like doing it that way, right?
Like I grew up in the era of bodybuilding magazines
where they said you gotta have a big carbohydrate intake
and a big meal before you go train
and a big meal after you train.
So guess what I did?
I got in a habit of eating like that
and it still sticks to this day.
I don't try to tell people it's better doing it that way.
Plenty of people have told me, hey, I don't feel good with a lot of my stomach when I go train. Or if
I have a carb heavy meal in the morning, I feel tired. The data doesn't really support
that in terms of like, you know, on an average response. But if you know that you feel that
way, then by all means avoid, right? Like there's, I remember one time I,
so I used to go to a massage therapist in Tampa
who would do cupping and there's really no data
to back up the efficacy of cupping.
Is that right?
Yeah, not much.
But she did it, I liked the way it felt.
And I'm like, okay, whatever.
So I posted a picture of me flexing one time, you know,
and there's the cut marks all over,
and everybody's like going crazy,
like how could you do this?
I'm like, hey, hey, hey, hey, wait a second.
I never said this does this,
and I never made any claims about it.
She does it, and I like the way it feels.
I'm not saying it does anything.
Actually, one of the things about being a scientist
is like now I'm impossible to placebo,
which is really annoying,
because I would love to be able to placebo myself
a little bit more.
Because placebo effect is powerful.
It's powerful, and it's one of the reasons,
I was telling you earlier before we started filming,
I'm like, it's one of the reasons I just
don't believe a lot of stuff,
because I know how powerful the power of belief is.
I mean, you had Sean Mackie on here.
Your beliefs about pain, change your pain.
Actually change how much pain you get.
It changes your pain experience.
So one of the things I've become big on recently is, hey, what happens in the mind affects the
body, what happens in the body affects the mind. So just because I don't have a
randomized control trial to support something, if we know the RCTs don't say
it's worse, right, then you do whatever you like, right? And I think a lot of
people get bent out of shape when I say, well, when they control the variables
that need to be controlled,
there's no difference between intermittent fasting
or just regular old calorie restriction,
or there's no difference between low fat diets
and high fat diets.
What people hear is, low carb sucks,
intermittent fasting sucks.
He said they don't work.
No, no, no, this is great.
This is great news for everybody.
It means you have all the tools at your disposal
and you get to pick the one
that fits in your lifestyle best
because that is what makes the difference
is what your overall lifestyle looks like.
And we have way too many people worrying about the minutia
who just don't even exercise on a consistent basis.
So they don't sleep well on a consistent basis.
So they don't manage their psychological stress well,
or they try to be perfect with their nutrition
and then they fall off the deep end.
And what I'm saying is like, no, like be imperfect,
but be consistent with what you do, right?
And so for you, obviously carbs at night
have not made you fat.
Like I have eyeballs.
So we can just dispel that myth right now.
Yeah, I would say eating the way I eat now,
I'm leaner at 49 even than I was 10 years ago
or 10 years before that.
I was pretty lean then.
And I don't put a ton of attention to tracking calories,
although, and I want to be very, very clear.
I was not paid to say this.
Like I've purchased and use Lane's carbon app.
He happens to be wearing a shirt that says Carbon today,
but I've talked about this before on other podcasts
and social media.
And it's absolutely true that I,
there's no endorsement relationship.
But I love the app because that was really the first time,
probably since college,
because I started lifting when I was 16.
Running and lifting has always been my thing since I was 16.
But since college that I used a tool, in this case, carbon,
to basically track what I'm eating,
like exactly what I'm eating.
And what I like about it is that I can just click
on different boxes of things within the app,
and really it makes it very easy, say,
oh, I ate this thing, you know,
white rice from this package and like,
and it generally knows products, it knows brands,
and it did a really good job of letting me check in
and just see how many calories I was consuming,
how much protein, how much fat and from what sources.
But one of the major takeaways that at least I got
from Carbon was that you can arrange your diet
any number of different ways.
In fact, it has like a really nice little slider
where you can put in, you know,
you want to eat more carbohydrates and less protein even,
or you want to have a vegetarian diet, which I don't.
I'm an omnivore.
I'm an omnivore.
My dad's Argentine.
I like meat.
I like meat.
I don't even really like fish that much or chicken.
I just like, I like eating meat and eggs.
Those are like my preferred sources and whey protein.
Okay, fine.
But you can arrange things within the context
of different types of diets.
And I think there's real value to tracking precisely
what one eats for even short periods of time.
And then I confess, I stopped using the app for a bit,
then I went back to it, you know,
and not because things want to drift.
I think some people really need that consistent checking.
Other people need to perhaps just kind of eyeball it
for themselves.
But for me, I've found that knowing exactly what I'm doing
for some period of time allows me to explore things
in a way that's really effective.
And so I just want to give a nod to carbon.
And I don't do product endorsements on this podcast.
I do ad reads and that kind of thing for things I love.
But I say that because I think it lands squarely
in the context of what we're talking about,
which is that I know what works for me.
I also know that some people really love
like a giant carb meal in the morning.
Some people don't like meat.
Some people, you know, and I think what's so beautiful
about the way that you've been talking about science
and nutrition in particular over the last few years
and still here now is that you don't really seem to care
whether or not people are vegan, vegetarian, omnivore
or even carnivore, dare I say.
It's just a matter of how people are couching the advice.
And the reason I keep coming back to this is that I really think that you,
this discussion, but you in particular, are best poised in this whole field of public-facing
health nutrition advice to really change the way that the messaging occurs and the way that
people hear that messaging. And I say that with the utmost like respect.
That means a lot to me. Thank you.
Because most people are not going to go read the meta-analyses. Right. that messaging and I say that with the utmost like respect. That means a lot to me, thank you.
Because most people are not going to go read
the meta-analyses.
Right.
And most people don't know how to parse data,
but I think that paying attention to the words
that are spoken right before the advice should be,
we need to think, come up with something like,
that's like the Norton method.
Pay attention to the words provided right before the advice.
Yeah, I think how you say it makes all the difference, right?
And even, you know, take somebody I've had, you know,
conflict on social media with, which is me, Paul Saldino,
which, you know, when he would say something like,
well, I cut vegetables out of my diet
and I felt like my eczema got better.
Okay, that's your experience. You can't go, on average, I cut vegetables out of my diet and I felt like my eczema got better.
Okay, that's your experience.
You can't go, on average, that's definitely not reflected in the research.
But hey, if you know that you did this thing and you felt better, that's fine.
But how we're overgeneralizing to the population is the problem, right?
And so I think, I mean, again, I'll say, hey, I calorie cycle a little bit, which again,
you can do using the app, right?
You can change your days and whatnot, give you more calories some days, more calories
other days.
And I was, I showed a screenshot of it one time and somebody goes, so why do you do it
like that?
Like, is that because it's better this way for like muscle growth and fat loss?
And I go, no, because I had a get together with friends on Saturday
and I knew I was gonna have a couple beers
and I knew that there was gonna be some fatty foods
so I put 4,000 calories on that day
and less the rest of the week.
And they're like, that's it?
That's your reasoning?
Like yeah, compliance is the biggest one.
I will tell people, I'm like,
the reason that I, and we talked about this earlier,
I have never used performance enhancing drugs.
I've never, even when prohormones were leaveable,
I didn't use them.
I've never.
And you're not on TRT.
Not on TRT.
We need to distinguish this.
Yeah, yeah.
Because people nowadays like kind of put TRT,
well, as long as it's keeping someone's testosterone
in the normal reference range,
which is somewhere between 300 and 1200 nanograms
per deciliter, then they're like, they're not,
you've never injected a synthetic version of a hormone.
No, and like my testosterone, even from like age 18,
when the first time I had it measured up until like
even a year ago, the lowest it's been,
I think it's been like 750 and the highest it's been
was like 1050.
And so
I obviously don't need it. You're on the upper, you're high normal.
So the reason that I've been able to have so much success, and I get the skepticism,
I really do. So many people say, I mean, look at how many people are out beating their chests
saying they're drug free and then it comes out that they weren't, right? But I have been brutally consistent for 25 years.
In 25 years, the longest I ever took off
of resistance training was seven days
and it was after I won world championships in 2022
for M193 kilo.
You know, so I've been able to be really consistent
with my training.
And I always give this comparison of,
I think it just really highlights
how powerful consistency is.
And it relates back to my favorite quote I've ever heard.
The magic you're looking for
is in the work you keep attempting to avoid.
The work is the hack.
If people, and I liked what our friend Peter Attia
said this when he was talking about biohacks,
and why I didn't like the term biohacks.
He said, I don't like that it occupies
so much mind space, right?
You get people really focused on the minutiae,
which is fine if they're already doing the big stuff,
if they wanna kind of level up a little bit, cool.
For me, minutiae is where I live because the difference
between me winning a powerlifting meet
and me losing world championships is 1%, right?
But for most people, we just gotta get them consistent.
If I said, Andrew, I want you to become
the best three-point shooter you possibly can be,
but you can't get any coaching,
you can't even watch any tutorials, right?
But all you did for 10 years was go out
and shoot three-pointers for two hours a day.
You probably won't go to the NBA, but I bet you'd be pretty good at three-pointers, right? And I feel like
if people could just get that message and internalize it more. No, it's not that you
didn't have your carb to fat ratio perfect. No, it's not that you ate your carbs at the
wrong time. No, it's not that you didn't get exactly this much protein. It's you just stop
being consistent. You stop doing it.'s, you just stop being consistent.
You stop doing it.
Yeah, you were really consistent Monday through Friday.
And then Saturday and Sunday came and you blew out, right?
Like if I'm consistent with my budget,
Monday through Friday, but then I blow it on the weekend,
hey, guess what?
That weekend money still counts
and calories are the same way.
And you enjoy resistance training.
I love it. I love it.
Do you do cardiovascular training?
Defined as, because people get,
I'm starting to catch flack these days when I say cardio,
believe it or not,
repetitive motion movement designed to elevate
your heart rate for 12 minutes or more.
So I'll usually do like a five minute warmup on the bike
before I train, and then I will also make sure
I get at least 10,000 steps on average per day.
I usually average closer to like 11,000.
But I don't do a lot of purposeful cardio.
Now what I will tell you is my average heart rate
in lifting sessions is about 140 to 150.
So if the definition of cardio is that, then I'm getting cardio.
And actually, when I've had most of my markers of metabolic health assessed, I'm very metabolically
healthy. Actually, it was funny. I just competed at Nationals in late May. And I won.
So I won.
And actually, again, very cool kind of side story.
We talked about the injuries I've dealt with.
And so I'm 42 now.
It's been an eight year journey.
And I mean, going from, I've had back pain so bad,
I couldn't even get up the floor.
Needed a cortisone injection in my spine at one point,
just to be able to stand up. And multiple hip injuries, a lot of chronic pain I dealt with.
And I'm very proud of myself that I never gave up because in my heart of hearts, I felt like I
haven't hit my last PR yet. And at Nationals this past year, I actually set a national deadlift
record for my age and weight. And it was actually an unofficial world record
and qualified for world championships.
But one of the team USA coaches, his name's Matt, Gary,
him and his wife, Susie, are like,
in evidence-based powerlifting, they're the goats.
And there is no better game day coach to pick attempts
than Matt and Susie, Gary,
other than maybe my coach, Ben Escrow, shout out to Ben.
But they were at the meet and we've known each other for 15 years and the next day I came down
into the lobby and they're down eating breakfast and Matt's like, your ears must be burning,
we were just talking about you. And I'm like, oh what? He goes, you know what I'm impressed with?
He goes, your cardiovascular fitness. And you with? He goes, you're cardiovascular fitness.
And you know, a power lifting meets nine lifts, right?
You get three attempts on squat bench press deadlift.
And so I kind of like looked at him where he goes,
we were there between warmups and finishing.
It was about four hours.
You never sat down.
You were yelling the entire time.
You're talking the entire time
because I'm a very extroverted, active person,
then when I'm firing myself up, it comes out very extra.
He's like, you're yelling the entire time.
And you never were tired.
Again, when I look at my heart rate,
and I was at the meet,
I think the average was like 150 or 160.
And so, some people would not consider that cardio,
but I would say my cardiovascular system does all right.
So.
I would argue it might be related
to you're not getting sick very often.
You know, it's very clear that activation
of the sympathetic nervous system
is one main driver of the immune system.
This is why often people observe
that they go through a very stressful period of life
and then they go on vacation and they get sick,
or they're taking care of a loved one
and that person either gets better or passes away
or there's some ending to that caretaking
and then they get sick.
I have observed that exact thing.
When I went through my first divorce,
I was also getting,
I was also involved in a lawsuit with a company
that I used to own a portion of.
It's a very long story,
ended up having a good ending for me.
And all that stuff kind of resolved itself,
the divorce, the lawsuit, everything,
resolved itself in about a six week time period.
As soon as it resolved, I got sicker
than I ever had been in my entire life.
I got the actual influenza, you know.
I tell people after that experience in 2018,
I go, here's words I'll never use again.
I think I might have the flu.
No, you know, after you've had it for sure, you know.
And I mean, it, but it was like my body had just,
maybe it's a little bit of woo,
but it was like my body,
I dragged it across the finish line and then said,
okay, we'll see you in a couple of weeks
cause we're taking a break.
You know?
The thing about human evolution,
I mean, these are just so stories
anytime people talk about human evolution, by the way,
like no one really knows,
but the idea that, you know, if there was a famine
or you need to take care of children in famine,
the idea that you would be more vulnerable
to disease at those moments, sure.
But it's also true that the catecholamines,
dopamine epinephrine, norepinephrine,
activate certain components of the immune system
that protect you against things.
I mean, it's not gonna protect you against everything,
but it's when you relax and rest finally
that you are more vulnerable to incoming infection.
We see this with pain too, right?
Like you had Sean Mackie on talking about this stuff
where, you know, I forget who was talking about this.
I remember listening to a podcast with,
it wasn't him, but it was another pain expert.
And they said, you know, because your beliefs about pain,
your stress level, your sleep,
like your psychological milieu actually matter
in terms of your pain experience.
In fact, the single biggest lever I've pulled
to get me consistently training and pain-free
was becoming more relaxed and less stressed out
all the time and managing my psychological stress better.
You know, when you're not vibrating
and spun up all the time, your body has,
again, this is a little woo wooey,
but I think you have more energy.
I mean, if you look at-
It makes sense, it makes sense.
I mean, those catecholamines,
I mean, there are other molecules involved too,
but that, you know, dopamine epinephrine,
norepinephrine cocktail is driving us forward in motion and thinking,
all the time.
And if you're putting thoughts into one set of things,
they're not going elsewhere.
Like you said, it's all trade-offs.
I read something from a PhD in psychology
who said, stop thinking about your problems.
The problem is you're thinking
about your problems too much.
Thinking about it doesn't solve them. and just ruminating on them makes
it worse. And actually again if you look at like pain literature, fibromyalgia,
chronic fatigue syndrome, very close ties to psychological stress. And we were
talking earlier about like if you look at the the data on mortality, cardiovascular
disease, cancer on and with ACEs scores, which is adverse childhood
events scale.
So zero being best, you were loved as a child, that sort of thing, you had no real big worries,
10 being basically abused.
There's like a very, I don't want to say very tight, but there's a dose response of ACEs
scores on the risk of mortality.
So what happens in the body affects the mind, and what happens in the mind affects the body.
And we were talking about with pain literature what happens if the mind affects the body
in your pain experience.
And even just something like sleep, there was a study done where they looked at military
members and they had eight hours of sleep versus four hours of sleep, and they looked at military members and they had eight hours
of sleep versus four hours of sleep and they looked at the risk of acute injury.
236% increased risk in the people getting four hours of sleep versus eight hours.
And now here's where people get this wrong.
Somebody reached out to me and said, well, I got four hours sleep last night.
Should I?
No, no, no.
One bad night of sleep doesn't do that.
Sleep is a cumulative effect.
Just like if you have a week's long worth of bad sleep
and then you sleep 12 hours on the weekend,
you're not making up that sleep debt.
It's more about what you're doing time over time.
Just like nutrition, just like training.
Exactly, and so this actually brings me to,
I know we kind of have gone down the rabbit hole here,
but when you look at,
Ben Carpenter did a great example of this.
He has a good social media account.
He had a jar of like blue marbles
and a jar of green marbles.
And he said, let's pretend that this is all junk food.
These blue or these green marbles
are all junk food, ultra processed.
This blue is minimally processed whole foods, right?
If my diet is mostly junk and I add one good meal,
and he puts a blue marble in the green,
did it change things?
No.
And everybody knows that, right?
Like if you eat mostly a junk diet,
you have one good, one salad or one, you know, good meal,
it's not gonna change things.
So why does everybody think if we take one from here
and put it over here, that it drastically changes things?
Because it doesn't.
It's about what you do consistently over the course of time.
And so speaking of, we're talking about the mind
affecting the body, but then the body also affects the mind.
And so there was just a study published,
I just covered it on my channel,
where they took men with general anxiety disorder
and major depressive disorder,
and they had them resistance train two times a week
for 25 minutes a session, 50 minutes total, eight weeks.
It's not much training.
I think it was like six hours and 40 minutes
of total training over the entire two months.
Now, in statistics, you're familiar with an effect size,
which is basically how meaningful is an effect,
because you can have a significant effect
that isn't very meaningful
if you have enough subject number.
So when we say things like an effect size,
.2 is considered small,.5 is considered moderate,
and.8 is considered large.
Anything above.8.
SSRIs are typically in the.3 to.5 range. I think in best case scenarios, they get up around.7,.8. The effect size for
resistance training two times a week, 25 minutes a day for eight weeks, was a 1.7 on major
depressive disorder. Anybody who's a scientist out there, if they hear weeks was a 1.7 on major depressive disorder.
Wow.
Anybody who's a scientist out there,
if they hear effect size of 1.7,
they do exactly what you did.
Their eyebrows go up and they go,
are they sure that's right?
You don't see effect sizes like that very often.
And I wanna be very clear,
I'm not saying do resistance training in place of SSRIs.
That's a very- Of course not.
But these individuals had not trained previously.
They hadn't trained before, yeah.
They were healthy or,
I actually don't know the specific characteristics,
but I knew they were coming from like not training, right?
Now, hey, like listen, both these things can be true.
Maybe somebody needs to get an SSRI
because like depressed people don't even wanna get
out of bed a lot of times, right?
So getting them to the gym,
even if they know it's gonna help them, is a hard, it's
a hard swing.
So maybe coupling that, but that's just resistance training and that affects this, right?
So I think one of the biggest revolutions we're going gonna see in science is the broad application of biopsychosocial
across a bunch of different disciplines
and stop thinking about,
well, your body's a bag of meat
and it's attached to your brain
and if you poke the bag, punch the bag, burn the bag,
cut the bag, brain goes owie.
And I think we're gonna start
thinking about things much differently
and I think it's gonna open up a lot more in science.
And in fact, honestly, if I had to go back and do a PhD again,
it would be in some sort of psychology or whatnot.
Because I just think there's so much untapped in that realm.
And I was actually talking about this with somebody
the other day.
And it's pure anecdote.
I'm completely speculating.
I have yet to see an interview
with somebody who's in their 90s or 100s
who sounds really stressed out.
They're mostly like DGAF, right?
And when you ask them what they did,
most of them say, oh, I drink wine every night,
or the one I remember, she was like 110,
she's like, yeah, I drink Dr. Pepper every day, or whatever.
It strikes me that, and again, genetics matter.
Their lifestyle matters.
I'm not saying any of that stuff doesn't matter.
I don't see, at least in my experience,
people who make it old age,
they're not usually very spun up all the time.
I just, I haven't observed that.
I don't know if you've seen similar observations or-
They seem to enjoy life.
I have a grandfather on one side that died earlier,
but a grandfather on the other side who lived
into his nineties and he ate a steak every day.
He smoked till pretty late in life before he eventually quit.
He had ice cream dessert after every dinner.
He's Argentine, so they stack their meals
toward the end of the day, definitely.
He liked walking.
I guess the point is that he was always interested
in what was in the newspapers,
but he wouldn't get riled up about it.
He liked walking.
He really enjoyed life.
Like if there's one key characteristic to describe him
is he really enjoyed life.
Now he didn't take the best care of himself
in the sense that had he perhaps never smoked
or quit earlier or dropped the excess calories,
he might've lived an additional two or three years,
but he was really happy until the end.
And that's the lesson there is,
we're not saying that stuff doesn't matter.
He would've gotten better results if he hadn't smoked,
if he had paid more attention to his nutrition,
that sort of thing.
But we have to keep in mind,
what is the hierarchy of importance and the power here?
And so, I'll give you an example.
We're gonna assume it on the blade of grass,
but I believe it relates back
to this conversation we're having.
So we know creatine works because we've got thousands of double-blind placebo-controlled
trials showing that creatine works, right?
But there was a study where they gave people creatine or didn't give them creatine and
then randomly told them if they got it or not, meaning you had people who didn't get
creatine got creatine, who didn't get it, told they didn't get it.
People who got it, told they got it,
and people who got it, told they didn't get it.
And what they found was the results,
and I forget what they actually specifically measured,
but the results basically were like,
not what they got, what they told them.
Okay, now people will misinterpret that as,
well see creatin doesn't work.
No, no, no, it works.
It just means your beliefs about what creatine does
are more powerful than what it actually does.
Just like actually there's a similar trial with caffeine.
And I'm thinking about, there was a study,
Brad, I don't have the specific citation,
but they had two groups of men train drug-free.
One group they told they were getting steroids.
That group gained significantly more strength than muscle mass.
Now, I would argue that's probably because they're going into training sessions believing
that they can train harder, believing that they will recover better.
But that goes to show the power of placebo and the power of belief.
When I say placebo, people think what I'm saying is you're lying about your experience.
That is not what I'm saying at all.
I think your experience is probably quite valid.
What I'm saying is it may not be due to the thing you think it's due to, but your beliefs about the thing.
And so where I get really focused is,
let's do the big stuff right.
Because so many people are so worried about little stuff.
And one of the things I'll tell them is,
hey, I have no data to back this up,
but my intuition tells me that the amount of stress
you're spending on these small variables
is probably killing you faster
than if you got those variables wrong.
And if we could just focus on the big rocks first,
and if we can pick up some pebbles
after we get the big rocks, great,
but don't drop the big rocks trying to pick up pebbles.
I love it, and I love this example of the creatine experiment
because just to repeat the conclusion,
because I want to make sure that people don't take away
the wrong conclusion, creatine works.
Absolutely.
But your belief about creatine works more in this case.
So two things can work, one more than the other.
And the placebo, AKA belief effects,
are very, very powerful.
I completely agree with you there.
Wonderful way to set the stage
for some of the specific questions that were asked
when I said on social media,
I'm gonna sit down with Lane Norton again.
And I'm very curious about some of these as well.
So I'll inject some of my own experience and questions.
Training to failure and reps in reserve.
We should define these a little bit.
And before we get into it,
it's fun to have these kinds of conversations nowadays
about resistance training,
knowing that both men and women should resistance train.
People who want bigger muscles and who don't
should resistance train.
Because in the past, it was always about like bodybuilding
and pre-season football and people going to the military.
I think thanks to the great work that you've done,
but I'll just give a particular shout out
to some of the women in the nutrition and fitness space,
namely Dr. Gabrielle Lyon,
in terms of menopause, Perry Menopause, Dr. Mary Claire Haver,
and women in that sector really emphasize
in the key need for resistance training.
There are other names as well,
but really championing the importance
of resistance training.
Training to failure in my book means
when you can't move the weight, by whatever means,
any more in good form, in proper form, that's failure.
So we're not talking about forced reps. We're not talking about swaying the upper body
or using momentum.
So trained to failure,
you can't move the resistance anymore in good form.
And reps in reserve, my understanding is,
one's own subjective understanding
about how close they are
to that point of failure.
Do I have that right?
Yeah, so you define failure the way I define failure,
which is you cannot take the weight
through another concentric repetition
without breaking form.
Reps and reserve would be an RIR of one
means you stopped one rep shy of failure.
RIR of two, you stopped two reps shy of failure. RIR of two, you stopped two reps shy of failure
and so on and so forth, right?
And so I would define those that way.
Okay, so with those definitions in mind,
is training to failure more effective
at generating strength and hypertrophy increases
than if one keeps a few reps in reserve?
And of course we have to balance this
against all the factors related to recovery, et cetera.
But assuming that one follows a program of doing,
and I'm really just trying to cut right
through the middle here, let's say two or three exercises
per muscle group and does after a sufficient warmup,
let's say two to five sets
that we're going to call work sets.
You could imagine an extreme scenario
where every single work set is taken to failure.
You could imagine taking only the last set
of each exercise to failure.
You could imagine taking none of them to failure.
Assuming adequate volume is achieved across the week,
my understanding is this is 10 to 20 sets per muscle group
across the week, it could be distributed
across different workouts or all done in one workout.
Is training to failure going to generate more strength
and hypertrophy than leaving some repetitions and reserves?
So let's start with the extreme scenario.
I go to failure on every single set
and I do what I need to to recover.
Doesn't matter if it's a one,
only doing that muscle group once per week
or spread out multiple times per week.
I'm doing what I need to to recover in between.
My genetics, my hormone status, my sleep,
my nutrition on and on
is going to failure more effective
than not going to failure?
That's gonna generate a lot of discussion in the comments.
I can't wait to see it.
So I'm gonna cite quite a bit of work
from my powerlifting coach, Zach Robinson,
because he is at FAU, just finished his PhD,
and did a lot of meta-aggressions and meta-analyses
on this exact topic.
So I'll give you the answers first that are straight down the line, scientific answers,
and then I'll explain things.
For muscular hypertrophy, you need to get close to failure, but you probably don't need
to train to failure to maximize hypertrophy, but you got to get pretty close. You can be stronger, but to maximize strength,
you're probably better off not touching failure very often.
So there are a few studies now looking at this,
showing that, I think there was one study recently,
and I can't remember the exact details,
but I remember it being pretty well designed,
and the takeaway was,
hypertrophy was similar between the groups,
but the group that went to failure, or
stayed a few reps shy of failure actually got stronger
compared to the group that was taking most sets to failure.
And did they control for total volume of work? So because I
could imagine not going to failure, you can do more sets
because you've got and that's exactly more quote unquote gas
in the tank, right?
Practically, that may be a benefit of stopping
Shia failure, right?
But yeah, they control for those variables.
So when we talk about volume, the way
we define that is essentially number of hard sets,
which a hard set would be a set close to failure.
The general consensus is within five reps of failure
is considered a hard set.
Now, what I will tell people is,
that may not sound like much,
most people have never truly pushed themselves to failure.
Okay, and I'll give some practical examples of me.
So my best set of squats ever, I did 530 for 10.
This was a long time ago.
Yeah, Hicks.
When I finished that set, I actually,
somebody had to come save me
because I couldn't fully lock out my lumbar
and I couldn't get the bar on my right side
all the way back up.
Somebody had to run over in the gym and help me.
After that set, I laid down
and I physically hardly could move for about 15 minutes.
So this is, you know, gun to the head type failure.
Yes, you do as many as you can.
Your family's been kidnapped.
If you don't get these 10 reps, you're, you know.
All those mental gains.
That sort of thing.
And I mean, I was done.
You know what I mean?
And so one of the things I'll tell people is
the first five reps of that set were still hard.
They still felt hard, right?
And so people will say,
oh, you stop a rep or two shy of failure.
You're trained like a
well, like, so you're telling me if I stopped two reps shy on that one, that that's an easy
set because it's not, I can tell you that. And the reason I'm giving this background is because
in research studies where they have people who are like beginners or intermediates and they
beginners or intermediates and they ask them to rate their RIR, they tend to underestimate their RIR, right?
So they'll say, you know, during a set, say your RIR, and they might say two.
And what they find is when the researchers push them to true failure, yell at them, crank
the music, get them really psyched up, they get five more reps than they think they'll
get on average, right? make the music, get them really psyched up, they get five more reps than they think they'll get
on average, right?
So most people, if you've never actually taken things
to true failure, you actually probably don't know
what it is.
So I do think it's useful to train to failure at times.
I think you make a very important point,
which is that occasionally training to failure
gives you a sense of what failure really is for you.
And no one can really tell you that,
only you can tell you that and experience that.
But if I understand correctly earlier,
you said once you know what failure is for you,
then if strength gains are your goal,
and I think more and more people, by the way,
are training for strength who don't want hypertrophy,
at least not across every muscle group.
When I talk to the general public,
which I do a lot,
I get the sense that men and women are like,
yeah, I'll lift weights.
I can see the value of that.
Would love a little bit more muscle here,
a little bit more muscle there,
but they don't want to be generally larger.
And yet they can understand and appreciate the value
of getting stronger everywhere.
Because being strong across your whole body is one of the core definitions of health. but understand and appreciate the value of getting stronger everywhere.
Because being strong across your whole body
is one of the core definitions of health.
Being strong is fun.
So again, for hypertrophy,
doesn't seem to matter if you take every set to failure
or stop a couple reps shy.
I would argue that probably you'd want to leave most reps,
most sets shy of failure. and if you're going to
take one to failure, take the last set of an exercise to failure.
Because then you can get whatever benefits might be there.
But if you take the first set to failure, I mean imagine if I did that set of ten with
530 on squats as my first set to, what am I going to get the next set if I try to do
530?
I can tell you based on how I felt, maybe three reps, maybe, you know?
And so your performance is just gonna really
drop off a cliff if you're going to true failure
on like a compound exercise.
Isolation's a little bit different.
And so I would say, whereas if you,
you probably could have done like sets with, you know,
six, seven reps for multiple sets
and then have gone to failure on your last one, right?
Now, it may seem a little bit counterintuitive.
Why would it be the same for hypertrophy
but different for strength?
Well, with strength, you also have to think about
stimulus to fatigue ratio,
because fatigue will mask strength, right?
And I know this because I've,
like when I overreach for powerlifting competitions,
which is basically like,
we're taking me a little bit past my point
of what I can recover from.
I mean, I've had literally before nationals in 2017,
I was warming up on deadlift
in my last heavy deadlift session,
like 10 days before the meet.
And I went to pull my final warmup, which is 585,
and I couldn't budge it off the ground.
I was so tired, sore.
I couldn't get, it was like I couldn't get my body to do what I wanted it to do.
Ten days later, I pulled 716.
It's amazing what fatigue will mask.
And so if you're always training to failure,
you're gonna be training
under pretty high fatigue circumstances.
Doesn't really matter for muscle growth
because it's really just about doing enough hard sets
and putting that mechanical tension on the muscle.
With strength, you also have to think about
what is the most pure form of strength?
It's force production, right?
And force is mass times acceleration.
So you have a mass component, you have a speed component.
And so this is actually Zach Robinson
and his company, Data Driven Strength,
who I've been coaching with for three years.
I heard them on a podcast
and he was giving his like hypothesis
of how to optimize strength in a power lifter.
And I remember thinking,
I really like the way this guy is thinking.
He's thinking outside the box and it makes a lot of sense.
So one of his things was,
if you're training close to fatigue all the time,
and the goal is strength,
think about what that means in terms of your force production.
So let's say you do a set of eight reps, right?
Your first few are pretty fast, and then by the end, they're pretty slow.
The load hasn't changed.
So what happens to your force production?
Your force production is going pretty far down.
He said, I don't really want my athletes grinding reps in training.
I want them to hit some heavy singles and doubles
and triples because they need that because that's a skill.
You have to have those neurologic,
everybody's done this where they go,
well, I hit this for 10 reps
and here's what my run rep max should be.
And then they go in and get stapled with it, right?
Because it doesn't necessarily translate
because a one rep max or the purest form of strength
is a very specific skill.
If you've never trained it,
it's very difficult to get accustomed to.
So, we want to hit some, his idea was, you know, in workouts we're going to hit a heavy
top set, heavy single, double or triple or whatever it is.
And then our back off sets, instead of taking those close to failure, instead of doing say,
well, we'll do, you know, 75% of your training max for sets of eight
and have you getting pretty close to failure, instead of doing three sets of eight, why
don't we just do like six sets of four with that weight?
Because now you're doing those first four reps, which you can move that weight faster, you're having greater force production
and creating the same good stimulus, but with less fatigue.
And so again, that was kind of the hypothesis
and he did a meta-analysis, meta-regression
that supported this.
And now some of the randomized control trials
have come out and shown something similar.
And in my experience, I was honestly shocked at,
because he had all kinds of stuff to deal with
when he first started training me,
because I still was dealing with a lot of back pain,
a lot of hip pain.
I hadn't really gotten that under control yet.
And when I got ready for Worlds in 2022,
which I think we did our first podcast,
like the week after I had won Worlds,
I worked up to being able to do like two or three hard sets
of squats a week and deadlifts.
And that was all I could do.
That was all my body could tolerate before I get pain.
And so we did a lot of low load, relatively low,
low for me, you know, 60 to 70% one RM
for low rep number sets,
but trying to move it as fast as possible
to keep that pain under control for me,
but to get the stimulus.
And I was shocked at how strong I got
because before in 2014, 15,
when I was winning open national titles,
I mean, I was doing 15, 20 hard sets of squats
and deadlifts a week and way more for bench press.
And so I always thought, well, that's how much I need
to get to that level of strength.
And even now, like, so we've been able
to keep progressing it.
Now I'm doing probably more like six, seven harder sets
of those exercises per week,
and I'm basically back to the strongest I've ever been,
doing way less sets.
And I think a lot of it is,
we have learned to find the sweet spot with managing been doing way less sets. And I think a lot of it is we have learned
to find the sweet spot with managing
that stimulus to fatigue ratio.
So all that to say, if your goal is building strength,
it's mostly about doing enough like heavy lifting
that you actually do get stronger.
And then if you want to train closer to failure,
you can, because again, most of my audience
isn't trying to be a power lifter, right?
No, but I think a lot of the audience
would like to be stronger
and not necessarily grow their muscles bigger,
except in a few specific places on the body.
And so this would be the protocol,
there we go, protocols, little plug.
This would be a protocol for probably
not necessarily like growing the most muscle mass, but getting stronger
because you're not training so close to failure.
But obviously you're trying to move, as Zach says,
whatever that given load is,
you wanna move it as quickly as possible.
And so, and there's actually also data to show
that if you train slower purposefully,
that it's not as good for strength.
So they actually, there was a,
I think a meta-analysis recently where they looked at either
concentric repetition of slower than two sec,
of more than two seconds or less than two seconds.
And saw strength outcomes were better
in people taking less than two seconds to complete a rep.
Interesting.
That's the concentric phase,
the lowering phase, the eccentric phase. Yeah, we're not sure about that yet.
Interesting.
I mean, we do use some tempo training in my training,
but it's mostly because like me doing a slower tempo squat,
if my back starts acting up,
I can do some squatting
and not really hit that pain trigger as much.
But I'm still trying to move the concentric
as quickly as possible.
And so I don't know about that.
Does it matter how slowly you move the concentric
versus how fast you move it?
But yeah, what I would say is, you know,
when it comes to building muscle,
really the world is your oyster.
The research really shows machines versus free weights.
Low reps, high reps. Low reps, high reps.
Low reps, high reps, going to failure,
stopping a few reps shy,
it all builds the same amount of muscle for the most part.
But you have to work hard.
But you gotta work hard, yeah.
You gotta be consistent with it.
Obviously like the theme of this podcast, right?
But you can do it anyway.
And if we look at, I mean, obviously anecdotal,
but if we look at the history of the Mr. Olympias,
they all train very differently.
You know, I mean, Ronnie Coleman, I mean, I'm sure you remember when the Unbelievable
came out, his DVD back in like 2001, where he's tossing around 200 pound dumbbells and
he's doing seven 800 pound squats, 600 pound front squats, and everybody's just looking
at this like, my God.
And then you watch somebody like Phil Heath train, who again,
one of the greatest Mr. Olympias of all time, Phil mostly did.
Machines. But he built obviously a great amount of people will say,
well, they're on steroids. All those guys. Yeah, it's all controlled.
Trust me. It's an equal playing field because they're all doing.
They're all doing it right.
And the research shows anywhere from whatever,
five to 30 repetitions can generate hypertrophy
as long as the final few repetitions are really hard
and volume is adjusted.
I really like-
There is no hypertrophy rep range
like people used to think,
well, it's like six to 15 reps is hypertrophy.
Now I think practically it makes sense to do a lot of your sets in that range because if you're trying to do about is, oh, it's like six to 15 reps is hypertrophy. Now I think practically it makes sense
to do a lot of your sets in that range
because if you're trying to do 30 reps
getting close to failure,
I mean, gosh, I'm gonna run out of breath
if I'm doing any kind of compound.
Also if you work out in a-
That's a little boring for me.
Yes, and if you work out in a gym
where there are other people, like be kind,
like other people are gonna need the space
and the equipment.
So it could take forever,
10 sets of 30.
That's impolite.
So we're only half kidding there. One of the more common questions
is about training for people 50 years old and older.
And I love the fact that we're talking
so much about strength.
This seems to be one of the key evolutions in this field.
Again, in my opinion,
the people who have come through this podcast as guests,
Dr. Gabrielle Lyon, yourself,
Andy Galpin, who now has his own podcast,
the Perform Podcast,
more and more discussions about strength
and training for strength for the general public,
not just people who want to be power lifters.
So I think there's a lot of carry over there.
And I think the more that people hear us say
that resistance training can be really powerful
for health and longevity and getting strong
is one of the best things you can do
for your health and longevity,
injury protection, et cetera.
Peter Attia has talked about this
and it's not just about building muscle.
Want to know how they should adjust their training,
if at all, if they are 50 and older.
So obviously one of the key things to getting
and staying in great shape over time,
I always say is avoid getting hurt.
Could we say, okay, don't try anything to novel
and crazy without easing into it?
Could we also perhaps-
But I would say that goes for anybody, quite frankly.
Okay, could we also say perhaps
find the movements that you can do without injury
and just keep doing those over and over?
Is there any evidence that mixing up the exercises
is important, meaning doing new movements?
Or if you find two or three movements that work well for you,
can you just stick with those
and just work on progressive overload?
I think you can stick with those.
I think, you know, muscle,
the whole concept of muscle confusion,
muscle knows tension and how long it's under that tension.
And for how many sets it's under that tension.
It doesn't, it's not like, well, this is a,
I can tell that this is an inclined bench press
versus an inclined dumbbell.
I mean, you know, you might move through different ranges of motion
and whatnot, but the tension on the muscle
is the tension on the muscle.
So what I'd say to people is,
I think most people probably change up things too much
because there is like a neurological adaptation
to doing a specific exercise where you get stronger at it.
And so now you're using more load,
you can create more mechanical tension.
But if you're always changing things up,
you might not take advantage of that full,
you know, kind of neurological adaptation.
But if you're always doing the same exercises,
it's too easy to get comfortable and fall into,
well, did I do three sets of 10
and I always do three sets of 10 and I use this weight
and that's what I do and now you're no longer
progressively overloading.
So I think there has to be a balance
between enough changing of exercises
to kind of promote some novelty
because as you know, novelty,
there's a reward center in the brain for that,
just changing something.
And think about any time you're gonna try a new workout,
you get a little excited about it.
I was gonna try Zach's way of training three years ago,
I was like, oh, I was very, very excited about it.
So I think there is a place for that,
but I think people tend to fall into
a little bit too much of doing the same thing over and over,
or constantly changing things
because they're always chasing that novelty.
And I think that the reality
is probably somewhere in the middle.
But specifically for older, over 50,
I think whatever you can do with low pain level
and be consistent with that you enjoy,
that's what's best for you.
I mean, I always tell this story.
I had a client who, they loved CrossFit.
They loved doing CrossFit.
And they said, you know, I wanna build muscle
and I know it's not the best workout for building muscle.
I said, it might be for you,
because if you hate bodybuilding training
and you're not motivated to go do it,
and you don't enjoy it,
you're probably not gonna work hard at it.
And so maybe for you, a CrossFit workout
is the best muscle building workout
because if I try to get you to do something else,
you'd hate it and would lose motivation.
Right, and it feeds back to that consistency principle
that you talked about before.
Exactly, so when we look at like,
I think this might be interesting
for some of your listeners.
So when we look at how much muscle you can build
after a certain age, you can build the same
amount of muscle as a percentage of your starting skeletal muscle mass.
Okay?
So what I mean by that is once you're 50, 60, you've usually lost some muscle.
Okay?
And if you've never lifted before, if you go into lift, as a percentage basis, it appears
that you will still gain the same amount of lean mass. But for example,
if somebody has 80 kilos of starting lean mass, most of your podcast listeners are
USA I assume, so let's say somebody has 150 pounds of lean mass when they start, just
throwing out a random number, and they gain 10% over a couple years. Now they have 165
pounds of lean mass, they've gained 15 pounds, but the percentage is 10.
If somebody starts and they have 100 and say 20 pounds of lean mass, 10% of that is 12
pounds, they gained an absolute less amount, but as a percentage, it was similar or same.
And we actually see that with women too.
Women actually develop as a percentage of their starting lean mass,
the same percentage increase in lean mass as men
when they do the same level of hard training.
So what I tell people who are,
I'll hear people say,
well, you know, I'm too old to start resistance.
No, no, now is the perfect time to start right now.
And honestly, it doesn't take a huge dose.
I mean, if you want to be like,
you know, getting the powerlifting and like competing, yeah, now it takes a bigger dose,
right? But what it takes to get, and I'm just going to throw a number out, 80% the majority
of the benefits for health, strength, resistance training, you could probably get in three,
four sessions of 30 to 40 minutes.
You don't have to have a huge input of time.
And just look at the depression study we talked about.
Obviously that's not like muscle and strength,
but two sessions of 25 minutes.
I mean, it is an absurdly low dose that you require.
And I think a lot of people,
I try to be careful about this too,
we'll see how I train,
which is two, three hours a day for five days a week,
and think that's what's needed.
No, no, that's what,
I wanna go win a world championship.
That's what's needed for that.
It's not needed for you to build muscle and get stronger.
And even when I was at grad school, across the street,
they did a study in frail elderly,
where they had them,
basically they had trouble like standing up from a seated position and by the end of a did a study in frail elderly where they had them, basically they had trouble
like standing up from a seated position
and by the end of a 12 week study of them
like progressively overloading them,
which was basically like them just lowering the seat
at first, right?
And then maybe adding like a little bit of weight.
They saw these people built muscle, built bone,
got healthier, better quality of life.
And these are people in their seventies.
And there was a study in Australia
that actually got on the news.
Peter Attia talked about it with elderly women
who I think they were above age 70.
And there's some of them in there deadlifting like 150,
like upper hundreds in deadlift, you know?
It's incredible how,
I took a class called skeletal muscle,
structure, function, and plasticity.
Your skeletal muscle is so adaptable.
It is such an adaptable tissue.
It's amazing.
The same thing that can allow somebody to squat,
Jesus Olivera, shout out,
squat over a thousand pounds is the same tissue that can allow somebody to squat, Jesus Olivera, shout out, squat over a thousand pounds is the same
tissue that can allow somebody to run a hundred miles like David Goggins.
Think about that.
That's really incredibly adaptive.
And so what I'll tell the people, regardless of your age, your sex, whatever demographic
you are in, resistance training for just a couple times a week for a short period of time will drastically improve the prospects
of your quality of life, your longevity. I mean if we look at hand grip strength,
we look at lean mass, they're all inversely associated with mortality,
especially the older you get becomes a stronger association. And I always tell people, I'm like, it's not about the hand grip strength.
This is a proxy for just strength overall, right?
There was a study where they looked at pushups and found pushups were inversely associated
with mortality.
It's not that doing pushups is magic.
It's that that is a proxy for that person being strong.
And we focus so much of our attention, especially on falls and the elderly, right?
Well, if they had more bone mass, they wouldn't break their bones.
What if they didn't fall in the first place because they were strong enough and had good
enough gait and balance to catch themselves?
And oh, by the way, nothing better for increasing bone mass than resistance training.
So I am a huge fan.
And then we already talked about the the metabolic, like skeletal muscle,
Gabrielle touched on it, it was one of the first things
Don Lehman said when I came in his lab.
He goes, skeletal muscle fits every definition of an organ,
and we don't talk about it like an organ.
We talk about it like it's this inner tissue
that just sits there, and it is not.
It sends out signals to other tissues,
it integrates signals from other tissues,
it is an endocrine organ.
And so many people have unhealthy skeletal muscle.
And if we treat it,
what happens when you resistance train?
What happens when you build muscle?
Muscle is a metabolic sink.
It is greedy, right?
It's sucking up.
It's incredible.
You can take people who are type 2 diabetic,
and if you get them on a slight calorie deficit, you get them to start exercising,
it is incredible how fast their blood markers will start to resolve. Like, they can still be obese,
and you'll see their blood markers start to resolve within, like, you'll see improvements in
weeks. Layman did a, I want to say a 16- week study in either diabetic or pre-diabetic women back
in like 2003 I want to say. And he said within four weeks, he said we already saw these blood
markers start to resolve. Like your HbA1c hasn't resolved, but a lot of these other
markers started to resolve because at a fundamental level, at least in my opinion, and other metabolism people may disagree, I'm a big fan of Occam's
razor, which is plainly stated, all things being equal, the simplest explanation is typically
true. The actual hardcore scientific definition is the hypothesis that requires the least
amount of assumptions is usually true.
You're putting in so much energy into a system and you're running out of places to put it.
So you have skeletal muscle mass, you have liver,
these other tissues in the periphery,
and then you have adipose tissue.
And did you know that actually so people
who have more adipocytes are actually more resistant
to type two diabetes. So they have more adipocytes are actually more resistant to type 2 diabetes. So they have
more smaller fat cells that can soak up more of this stuff. And since type 2 diabetes is
basically too much glucose in the blood, right, and a lack of insulin sensitivity, small adipocytes are more insulin sensitive. And so what happens is we, at least in adipocyte physiology,
we used to think of adipose as also an inert tissue,
and now we know that's not true either.
And lots of different cell types.
Yes, yes.
We used to just think that there was, you know,
it's heterogeneous.
Brown, beige, and white fat cells,
and subcutaneous, and intraviceral,
and now they've done, you know, sequencing of different white fat cells and subcutaneous and intravistral. Now they've done, you know,
sequencing of different white fat cells and like 25,
probably now 50 different, I mean,
different genetics among those cells
that respond differently to insulin.
I mean, fat is a very interesting
and heterogeneous tissue.
But most fat cells,
at least based on the literature I've read,
and again, I'm happy to have somebody correct me who's an expert in this,
but they can expand to a certain point where it really becomes difficult for them to get bigger.
The integrity of the cell, because you still got a cell wall, plasma membrane and everything,
and you have an extracellular matrix that is scaffolding this fat tissue onto your body.
And so at a certain size of adipocyte,
it basically becomes,
you just can't pack anymore in there, okay?
And so if you can't put any more in muscle
because muscle isn't, you're not active
and muscle's not moving and churning through substrate,
and you can't pack anymore into adipose,
where does it wind up?
It's in your blood.
You can't get, and now when your blood levels of,
it's interesting because there are some people
who have all these theories, but like one person,
a researcher was like, well, I think branched chain
amino acids actually cause insulin resistance
because we see them elevated in the blood
in type 2 diabetes.
And I was actually in a, it was in a,
I was a grad student watching this person present
and I put my hand up and I said,
isn't everything elevated in the blood in type two diabetes?
You know, why are we picking on branched-chain amino acids?
So you do have some people who can become type two diabetic
who aren't obese.
They tend to have not as many fat cells,
which sounds like it'd be an advantage.
And if you're lean, or sorry,
if you are not overeating, right,
and getting enough exercise in,
it probably is an advantage
because you have less overall fat mass.
But you are going to reach that critical mass
of an adipocyte of about 100 microns, I think it is,
faster because your overall fat cell number.
So at the same fat mass, your fat cells are bigger and bigger fat cells are less insulin
sensitive.
In fact, one of the treatments for type 2 diabetes, sulfonylureas, I think they're called,
they're P bar gamma agonists.
They actually increase the production of fat cells.
They create new small fat cells.
Now you have a place to put stuff and you lower your blood glucose.
It's a reservoir.
Exactly. And I'm overgeneralizing to be sure. And again, I hope if I've butchered anything,
somebody will come and correct me.
They will.
But what's amazing is this stuff in the blood,
you just gotta get stuff moving.
Like, because you start doing exercise,
start controlling your calories a little bit, guess what?
You're oxidizing things through the Krebs cycle,
you're oxidizing, you're going through glycol,
you can now start to pull things in, right?
You're using this substrate, you can start
to pull things in.
And because you're pulling things in, now adip're using this substrate. You can start to pull things in. And because
you're pulling things in, now adipose can start to release some of its free fatty acids
into the bloodstream. So let's try it. Try to sell glycerides into free fatty acids into
the bloodstream, which can also facilitate this. So using muscle, you are, it is a partitioning
effect and it doesn't take long to start lowering
this glucose, blood lipids, these things in the blood.
It can actually resolve, at least those markers
can start resolving themselves pretty quickly,
which is why when we look at weight loss,
what level of weight loss they say is clinically relevant,
it's only 5%, right?
Which you'll have obese people and they'll say, well, 5% weight loss, you see these big
benefits in like blood lipids and metabolic health.
You wouldn't think with just 5% weight loss you would get that, but you do because you're
just giving a little bit of space to get that stuff in the blood out.
Now, again, this is my, I want to be very clear.
This is not a proven thing.
I feel pretty strongly that this explains a lot,
but again, this is my personal opinion
about how these diseases develop and whatnot,
but it is, I think it's relatively simple.
Yeah, thinking about muscle as an organ,
thinking about feeding muscle,
we talked about that earlier,
thinking about moving muscle
and in particular training for strength,
resistance training of different kinds,
hypertrophy, yes, but I, you know,
I'm kind of giving a little bit of a biased vote
for more strength training out there
across the population for, really for the longevity reasons.
I mean, Peter Attia has pointed out that
the percentage of people who die after a fall,
not because of the fall itself,
but because of a hip injury or a wrist injury.
And then they go immobile,
or they're just not exercising as much anymore
than they get an infection.
And then it cascades.
In fact, I had a conversation with one of my parents recently
on their 79th birthday.
I said, you know, in the next five, 10 years,
your biggest risk is probably going to be going downstairs
or stepping off a curb, not going up,
but as Peter's pointed out, going down.
So that that eccentric movement,
being able to sustain a fall,
being able to not fall to catch yourself, so to speak.
Well, practically you fall farther going downstairs
than you do going upstairs.
Exactly, and that pattern of falling while going down
precedes a lot of infections that end up deadly, right?
So, and hats off to Peter for really pointing out
the relationship between those things
and to you for encouraging people to strength train.
Also, I love the idea that I don't have to go to failure
if I'm in strength training,
because I like training heavy,
but the training to the point where the muscles are quaking,
even though that's how I initially started training,
because I came up in the Mike Menser camp,
I actually find that it eats into my recovery
in a way that maybe is a little more subtle,
but meaningful nonetheless,
which is that I feel fatigued later in the day.
Whereas if I complete a training session
where I can complete every rep,
I notice I don't get into that quaking thing.
I actually have a lot of mental and physical energy
later in the day.
And it's psychologically and emotionally fatiguing as well.
Maybe this one could be out of a brief answer,
or maybe not, I don't know.
Are there true age-related changes in metabolism
that are independent of decline in muscle mass?
You know, I saw a paper,
I think it was published in Science a few years ago
that said that metabolism actually doesn't slow
that much as we age.
Of course, total muscle mass.
So you mean BMR?
BMR, basal metabolic rate.
In general, you know, well, I should just say
up until that paper came out, I thought, okay, as we get older, our quote unquote metabolism slows.
Then of course we have to remember that puberty and childhood is sort of like being on performance enhancing drugs in the sense that protein synthesis is just massive and ongoing. from age 30 onward, let's say between 30 and 80, assuming that somebody's doing things
to maintain muscle mass, is there any reason to believe
that their basal metabolic rate actually goes down
just as a function of age?
Yeah, you're saying the work from Herman Ponzer
and really great lab looking at energy expenditure
that he does a lot of great stuff.
And so that study was looking at several thousand people,
I think, looking at their total daily energy expenditure
and really found it's pretty flat from like age 20 to age 70.
And then it kind of starts to go down,
but you can tie it to the loss of lean mass.
And same thing for basal metabolic rate
when they do indirect climatary.
If you look at, and this goes for older people, also women versus men, and then also type
two diabetics versus non-type two diabetics, obese versus non-obese, 80, I think the number
is like over 80% of the variance in BMR is completely explained by the lean mass, by
the amount of lean mass
somebody has. And by the way, the last 20% probably is explained by where that lean mass
occurs, because liver, for example, is a more metabolically active tissue, gram per gram,
than pretty much any other tissue. Skeletal muscle is more metabolically active than fat
tissue, but for a lean tissue, it's actually somewhat metabolically slow
because it's turnover rate is only like 1% to 2% per day.
You just have a lot of it.
Yeah, right, right.
But on an absolute amount of calories you burn,
you burn a lot in muscle because you have so much of it.
Great point.
So things like gut, liver tissues,
per gram of tissue are very active.
So yeah, it just doesn't seem to be,
for a long time, we spent so much time
focused on the metabolism side of things
when we're looking at aging,
when we're looking at obesity,
and we just didn't really find impressive stuff.
Even so obese people don't have slower metabolisms
on average.
The research shows that actually on an absolute basis,
they're faster than people who are normal weight.
When you standardize for lean mass,
it ends up being about the same.
People who are type two diabetic, same thing.
When you standardize for lean mass, if anything,
they have a little bit faster BMR.
And so if you think about it,
it actually kind of makes a little bit of sense
on a biochemical level because if you're insulin resistant,
you're also insulin resistant in fat tissue, right?
So like, okay, so it makes sense that maybe you like waste some more energy because you're
not able to put it where you want to put it, right?
So the people get upset about this because, oh, no, it's got to be metabolism metabolism and then
GLP-1 memetics have really kind of shown
No, the answer to this question is very much on the appetite side of things
It's like we tried to make a bunch of different drugs that would increase metabolism
we try to do all these things increase metabolism and
Nothing seemed to really make a big difference.
And then we came out with the most powerful appetite suppressants in the history of mankind
and people are losing large amounts of weight and keeping it off.
So I think people got too focused on that metabolism side or what I hear a lot of is
from like post-menopausal women, I'll hear somebody say, my metabolism dropped.
What probably happened?
You're sleeping less, you're more stressed,
you don't feel as good because the hormonal changes,
you don't feel as good.
And so you spontaneously became less physically active
and didn't realize it because our needs,
like our non-exercise activity thermogenesis,
our non-purposeful physical activity that we do,
fidgeting, pacing, is actually a large portion of our daily energy expenditure.
People get this wrong. You can't make yourself do more neat because then it's just exercise.
If you're purposely doing it, it's exercise. It's all subconscious, right? But if you're not
sleeping as well and you're feeling worse, spontaneously, you'll just not move as much.
And I know that people, like, that feels like
there's like a lot of judgment, shame associated with that,
but it is the truth.
It is a practical limitation and it may not be metabolism.
I guess I'm a little bit pedantic with that,
but it still contributes to your overall energy expenditure.
And so, again, they've looked at this
and I mean, there is some evidence
that like if your estrogen drops
and you replace that with supplemental estrogen
that that can like help out with like maybe
50 to 100 calorie energy expenditure per day.
So if you're replacing something
that's like now clinically low.
But my guess is that it would also drive more activity,
feeling better, more activity,
sleeping better, more activity. And that's where it's hard to more activity, feeling better, more activity, sleeping better, more
activity.
And that's where it's hard to disconnect that, right?
So yeah, I think metabolism wise, the results ended up being pretty underwhelming for all
this stuff that we just assumed, well, if somebody's overweight, it's because they're
slow metabolism.
The research didn't pan that out.
But I still think it was very interesting.
And again, it speaks to like the power of the mind and the connection in the mind of how some of these drugs act. But I do tell
people when they say, you know, calorie deficit didn't work for me. And I, you know, obviously
my metabolism was messed up because, you know, I had to get on Ozempic to lose weight. I'm
like, well, it doesn't really do anything to metabolism like the speed of your metabolism.
What happened is you just, you no longer mindlessly snack.
You feel, you are now in touch with your satiety signals
and that's why you're losing weight.
And that's why these drugs, they work.
All right, so speaking of Ozempic, Mungiro and similar,
let's talk about these drugs that are reducing appetite.
And in fairness have allowed millions of people
to lose substantial amounts of weight and keep it off.
This topic tends to get people a little bit riled up
on social media because I think for some reason,
people believe that if one gives these drugs the nod,
you're essentially saying you don't need to exercise,
but I didn't see anywhere or hear anywhere
that the use of any compound, drug or otherwise,
is mutually exclusive with taking good care of oneself in other ways too.
So what are your thoughts on these compounds
and what you're seeing out there?
I think my take is pretty balanced on this,
which is I think they appear to be great tools
for people reducing their intake and reducing body fat.
And it functions through appetite.
I mean, these drugs are GLP-1 mimetics.
And so GLP-1 is a hormone secreted by the gut
in response to feeding, and it acts on the gut
as well as the brain to reduce appetite,
you know, slow motility.
So it's a, it's a satiety hormone, essentially.
Now it has a very short half-life in the body.
So the reason a lot of people will come out and say,
well, there's things you can do naturally
to increase your GLP-1.
This is like talking about, I mean, yes,
a BB gun fires a projectile and a tank fires a projectile,
but there's a pretty big difference, right?
So with GLP-1 memetics, what's happening is
they're taking that protein and changing out
some of the amino acids in that protein, and it
basically just gives a much longer half-life. That's why people can take it once a week
or whatever it is, because it just stays around much longer.
And so if you think about the food environment we live in, which is free access to cheap,
hyperpalatable foods, our brains for the most part are probably not equipped to regulate appetite in that environment.
And it really actually is kind of incredible
how resilient the human body is,
because if you look at when the obesity crisis started,
we already had ultra processed foods available.
We had cakes, cookies, all these sorts of things.
But the difference was,
you had to go to the bakery and get it.
There had to be some small barrier, right?
And then, I think kind of the barrier that got flipped
was basically now, in the last 30 years,
you can go anywhere and get access to cheap,
ultra-processed, hyper-palatable,
calorically-ly dense foods.
And they just don't have the same effect on satiety that normal food does.
Like I have a Kevin Hall study at NIH where they took people from a mentally processed
diet and switched them to an ultra-processed diet, and they spontaneously increased their
caloric intake by 500 calories a day, like overnight.
That may sound like not a big deal to some people listening.
That is a very big deal.
It's about a pound of wheat per week
of increase in body weight.
Yeah, I mean, assuming that there's no increase
in energy expenditure, which we know happens over time,
but with these GLP-1 memetics,
they're slowing down mobility, they're acting on the hypothalametics, they're slowing down motility,
they're acting on the hypothalamus,
they're reducing appetite, and it's a very powerful effect.
Now, some of the side effects are like nausea,
some people have reported kind of like a,
not freezing, but like too slow motility, essentially.
So there's some GI side effects,
which are kind of to be expected with something like this.
And, you know, on one side you've got, it's so funny how everything gets politicized these
days, but on one side you've got people saying, oh, these drugs have no side effects whatsoever.
And you know, I think everybody should be on GLP-1s because they were not made to live
in this food environment. And then on the other side, you've got people saying, well,
this just obliterates the need for hard work,
and these people don't take accountability,
and I don't really think either of those messages
are really useful.
I think there's a lot of nuance here.
And I mean, it's a drug,
and every drug is gonna have side effects,
some worse than others, for different people.
And so for some people, it's not gonna make sense to take it
based on their lifestyle and side effects they get,
but for other people, I did a post on this where I talked about how much weight people lose on average and so
many people in the comments said, you know, I've lost 100 pounds or I've lost 80 pounds
or whatever it is.
Trevor Burrus Yeah, one of these GLP-1 mimetics. And again,
going back to our conversation of big rocks, people worry about lean mass loss, they worry about there
was a study in I think rodents where they saw an increase in thyroid, I want to say
thyroid cancer or something like that, but it was not really a physiological dose and
again it's rodents. People say, well we don't know what the long-term effects of these drugs
are. Well, they've actually been around for diabetes treatment
for a couple of decades now.
But, I mean, do we know what they do in 50 years?
I guess not, but we know what obesity does.
So I'm gonna take Ron White's line,
which is shoot the alligator closest to the boat.
I think if somebody's very overweight or obese
and they've tried a bunch of different methods
and they just, people say,
well, they just haven't been consistent.
Okay, so we can live in fantasy land
or we can live in the real world,
which is maybe some people just need some more training
wheels than other people, okay?
If we could stop putting like an ethical judgment
on how easy or hard it is for certain people
to do certain things.
I mean, it's easy for me to say, just be consistent,
because nutrition has never been a problem for me.
I've never struggled with my weight,
but I struggled in other areas of my life
that why can't I just be more consistent?
Why can't I just do the things I know I need to do?
I'm sure you would feel the same way
about certain things in your life where it's like,
well, I know logically what to do,
but it's hard for me to do it, right?
And so if we look at the burden on the healthcare system
of obesity and these type two diabetes,
and then all the metabolic diseases associated with them,
it's hard for me to imagine a scenario
where this is not a big net positive, to be quite frank.
Now, I wanna, this is, as my friend John Delaney says,
it's both and, okay?
Some people, this is really gonna help them
and it should be done in concert with lifestyle changes
and lifestyle education, because we don't want people to go from eating
a lot of a crappy diet to a little of a crappy diet, right?
We want them to make better choices overall.
But sometimes, again, habit coupling,
people don't get motivated and then get results.
People start getting results and then get motivated, right?
And so a lot of times, people will start losing weight and now they're motivated to go to
the gym.
They're motivated to eat better.
It doesn't happen in a linear path.
These things are kind of like, you know, like the opposite of a vicious cycle where this
is you're getting into a good cycle, right?
And a lot of people tend to fall into these categories where when things go bad, they go really bad
because it's a vicious cycle.
When things go well, they go really well
because it's a good cycle.
And so what I would say is with the concerns about GLP-1s,
the one I hear most is loss of lean mass.
So in studies, people who use GLP-1 medics,
they lose like 30 to 40% of the weight from lean mass,
which is a concern. But by the way, that is similar to 40% of the weight from lean mass, which is a concern.
But by the way, that is similar to the amount of weight from lean mass people use who diet
without resistance training or exercise.
So I don't think that it's a unique problem to GLP-1s.
And my guess is when we start getting studies that combine exercise with GLP-1s and look at lean mass retention,
we'll probably see pretty similar results.
So I'm not super worried about that.
On a practical level, I can see some concern with it
because if you don't have much appetite,
you're usually not selecting protein
as kind of your first line of what you're gonna pick.
And additionally, fiber, you're not usually gonna select
as your first.
So I think, again, these are great kind of like,
if we think about like training wheels,
I think there's a great training wheels for people.
And through natural, just having less appetite,
people start controlling their intake better
and then all these other habits start
to fall on the plate, for some people. I talked to a friend who, she's a nurse practitioner,
and she tried a GLP-1 memetic, just because she's like, I'm a nurse, I want to see what
this stuff is like for me. Then, she talked to a lot of her clients. And the anecdotal feedback that popped up a lot was
it stopped the food noise in my head.
I wasn't thinking about food all the time.
I just stopped thinking about it so much.
And if you look at obesity,
I mean, again, it really is on the appetite side.
We know that obese people have lower sensitivity
to satiety
signals. They get a greater reward from food. Like I just posted about a study the other day where
they gave a milkshake to people and they didn't really see a dopamine response. And, but in people
with binge eating disorder, when they give something like that, they do see a dopamine response. So a
lot of it is contextual, right? And so I think a lot of it is contextual around obesity of, okay, these are people who get
a greater reward from food on average, they're thinking about food more often, they've probably
also dealt with people telling them in their entire life or however long that they need
to lose weight.
And so food is always on their mind in one thing or another.
It's kind of like in Ghostbusters where they say,
you know, don't think about anything bad.
What's the first thing you're gonna do?
You're gonna think about something bad, right?
And so trying to calm down food noise
while knowing that you need to eat less food
is probably pretty difficult.
So on the whole, I think these drugs are positives.
I think it's going to lower the healthcare burden.
And I think it's going to help a lot of people.
And the other thing I'll say is like,
there's been a lot of pushback in the fitness industry
by fitness influencers.
Why do you think that is?
Like as if it's going to take their jobs away.
It's like the same way that people fear AI.
Like it's somehow like, like this stuff is here to stay.
It benefits many, many people.
I feel this way about these GLP-1 mimetics, excuse me.
And I feel the same way about AI.
It's like these things could be, yes,
potentially used for evil, but, but, you know,
also for good.
If I think back about when I might've had that sort
of reaction, I was in my early twenties.
And that's when I thought obesity was a choice.
I still think there is personal responsibility involved in obesity, but I think my feelings
about obesity at that time were, if somebody's obese, they're making the choice, they don't care about the stuff they eat,
that mindfully they are choosing to eat these foods
knowing this is gonna be the outcome.
Like self-inflicted.
Yeah, and I don't think that's the case at all.
I think a lot of people's habits and behaviors
are on autopilot.
I can remember very clearly,
I dropped my kids off at school one day,
and stopped at 7-Eleven to fill up with gas
and grab something from the store or drink.
And there was an obese woman in front of me,
and she was getting two slices of pizza at 8 a.m.
And at first I kind of had that knee-jerk response of,
oh, she's so lazy, of course you're over.
And then I thought, you know what?
This is probably something she's done for a long time.
This is probably a very habit
where she goes to a 7-Eleven, she gets pizza.
Or on Tuesday morning at 8 a.m.,
she's around this area and she goes to 7-Eleven
and gets pizza.
And maybe not, but I think a lot of people out there
are like that, where their habits and behaviors
are very much on autopilot.
It's not this mindfulness that we think they're doing.
And that translates into other areas.
And the other thing I realized is I'm like,
it can't be laziness, like all of it,
because there's obese people who are very successful
in other areas of their life.
So they don't wanna work hard.
And so, at least not for everybody,
that can't be the explanation.
And I think with fitness influencers
or people who have, you know, actually,
they've worked hard, they've built a good physique,
it's almost like, how dare you get results
without doing it yourself?
I did this without any help, you know?
And the reality is you might've had help
because your upbringing might have not been food-focused.
You might not have had a mother
who was always on you about food,
or you might not have had parents who shamed you
if you didn't clean your plate.
You might've had genetics
that made you more sensitive to satiety signals.
You might've had a phenotype where if you overeat, you tend to just become spontaneously more active. That's part
of the obese resistant phenotype. And so you might've had an advantage and you just didn't realize it.
So I think if we could just get away from the judgment of stuff and look at, take the judgment,
all that stuff out of it. Does this seem to help people?
And is it gonna be a net positive on society?
Thomas Sowell said,
in order to make compassionate policy,
you have to have dispassionate analysis of the data.
And the data says, this is gonna be massive for our society
and it's a huge benefit.
So regardless of my personal feelings of,
hey, somebody should be able,
look at Ethan Supplee, lost 300 pounds doing it,
through all hard work and exercise.
I'm pretty sure I've talked to Ethan about this
and he said, I think this is great, you know,
because it's hard to get people to believe
if people believe what they can see.
And so if they start seeing results, then they can buy in.
And yeah, I think overall it's a net positive.
So I mean, maybe studies will come out in 10 years
and people are falling over dead from this stuff
and we'll say, oh, whoopsies.
But I mean, you have to shoot the alligator
closest to the boat.
And right now the biggest burden on our healthcare system,
I think I'm correct in saying this,
and the biggest threat in a lot of ways
is how metabolically unhealthy our society is getting.
Yeah, I think also when people hear about these drugs,
they think about the person who's slightly overweight
or who is already fit, who wants to be even thinner.
And that's not what we're talking about here.
And I have a good friend who is an air traffic controller.
It works very, very hard, very stressful job, obviously,
high consequence job.
And he's very overweight.
He's gotta be more than 300 pounds by a significant margin.
And he's really struggled over the years.
And for years, he talked about getting his,
quote unquote stomach stapled,
you know, sometimes referred to that way.
Couldn't afford the surgery, this sort of thing.
And I asked him about it.
I was like, you know, what's that about?
And he's like, I just need something
that's going to allow me to move without pain
or a little bit less pain.
Every time he tries exercising, he injures himself.
And he's probably going about that incorrectly,
but he doesn't have a lot of time.
And he literally has lives in his hands.
He's married now, you know, he may have kids soon.
So I haven't spoken to him recently about these drugs,
but to me, it seems like that's like the perfect candidate
for these drugs.
If he could eat less with more ease and lose some weight
and then also start exercising,
I think that'd be a significant win for him.
So scenarios like that are what I think of.
And then also, you know, it's a mostly free world
in many places, not all.
So if people can afford these things
and they want to take them,
like who am I to say they shouldn't take them?
You know, I just like,
I feel like the amount of judgment involved to say that somebody should
or should not use a drug is, that's safe
and potentially helpful for them is like kind of,
I mean, that's almost offensive in a way.
Yeah, I mean, if you had something that,
like if we came out with a drug and it's like,
it looks like for a lot of people,
this can fix opioid addiction, right?
Yeah, you'd give them that drug.
We'd be shouting from the rooftops and celebrating, right?
We wouldn't say, well, you just gotta gut it out
and work harder, you know, you just gotta want it more.
It's like, no, like there's some,
yeah, there is some personal responsibility there
and there are choices and things that can be made,
but why are we trying to make this barrier
so high for people? Like like let's lower this barrier?
I love that.
On the other side of the coin,
you've been pretty vocal elsewhere
about the fact that sugar is not a drug.
Yeah.
You know, because sometimes people will say,
you know, sugar is a drug.
I would sort of put in the soft argument from my side,
soft argument that highly processed foods,
or let's just call them high density of taste foods, right?
That combine, you know, processed carbohydrates and fats,
you know, at high heats that can be consumed in, you know,
where you can easily consume several thousand calories
at, you know, almost unconsciously, right?
I mean, unless you're asleep or in a coma,
you can just pop these things in your mouth and keep going.
I don't even know if they taste that good,
but people just keep going.
That there's a bit of kind of lack of awareness
and compulsivity to them.
Very different than addiction, of course,
because people aren't necessarily going out
and robbing people.
But maybe just touch on your view of sugar as a substance.
We're not talking about the sugar in fruit.
We're talking about candy, ice creams, desserts,
quote unquote hidden sugars.
What are the real risks of these things
if people are consuming them still within the confines
of their daily caloric needs?
So they're not eating excess calories.
What's the deal with sugar?
Okay, so this is where it's very important
to give the appropriate context and nuance.
I'm glad you set it up the way you did.
So I always tell people when it comes to almost anything,
have guidelines, not hard rules.
Because hard rules will get you to do things
that are kind of dumb, right? So for example, not hard rules, because hard rules will get you to do things that are kind of dumb, right?
So for example, if you say,
I'm never gonna eat processed foods.
Well, whey protein is processed,
but if you look at the data on whey protein,
it improves metabolic health,
it increases lean mass, body composition,
even lowers inflammation.
So, I mean, if we're just gonna say
all processed foods are bad, well, isn't then whey bad?
So guidelines in that nature, same thing for sugar,
because obviously, okay, well, added sugar,
it doesn't have a big satiety benefit,
it's calorically dense, makes food very palatable.
I'm gonna come back to that, because it's contextual.
But fruit has sugar,
and biochemically, not really that different.
I mean, if you're talking about sucrose,
okay, it's a molecule of glucose and fructose.
Okay, a lot of fruits have glucose and fructose in them.
So if sugar has some inherent
lipogenic biochemical toxicity, addictivechemical, toxicity,
addictive quality, whatever,
we should see similar effects
across different sources of sugar.
And we don't see that, right?
And even when it comes to some of the processed foods,
people don't realize what goes into making something
hyper-palatable is complex. It's not just
sugar, it's not just fat, it's not just sodium, it's texture, mouth feel, you mentioned temperature,
all these things matter. And in fact, there was actually a study a while back that suggested
that texture might actually make a bigger impact on the palatability
of a food than even the sugar content.
Interesting.
And let's take it more from a mechanistic level, from your example.
If you're in the confines of your calories, what happens?
I would say a high sugar diet is still not ideal because it's going to be hard to get
enough fiber in a high sugar diet is still not ideal because it's going to be hard to get enough fiber in a high sugar diet.
But I, long time ago, beginning of grad school, I was under the opinion that sugar and high
fructose corn syrup were calorie per calorie, more fattening, metabolically unhealthy.
Now I was at a graduate mixer with a professor named Manny Nakamura, who was at Illinois, and he had done some of the feeding studies in rats
with fructose and seen these weird metabolic effects, right?
And I overheard him having a conversation
with another professor, and I was shocked by what he said,
because he's the one that did some of this research.
And the other professor said,
so, you know, high fructose corn syrup is bad,
and fructose is bad.
He goes, no, it's really just the calories that are in it.
It's easy to over-consume.
People consume it through soda
and, you know, they just eat too much.
And the guy was like,
well, you showed all these things in these mice.
He goes, we fed them,
like over 50% of their calories were from pure fructose.
That's pretty much impossible to get through the diet
unless like you're literally doing nothing
but drinking soda.
And he said, you know, we showed a pathway, that's pretty much impossible to get through the diet unless you're literally doing nothing but drinking soda.
And he said, you know, we showed a pathway, but that's not practical in terms of
the application to humans.
And so I got curious,
I really started going down the literature on sugar,
trying to say, okay, is he right about this?
Is it really not calorie per calorie more damaging
than non-sugar carbohydrate?
When you look at sugar intake,
it is associated with increased levels of inflammation,
it's associated with obesity,
but there are what we call confounding variables,
which is people who eat a lot of sugar
tend to eat a lot of calories.
So if we look at, here's my favorite,
human randomized control trials
where we control total calorie intake and sugar intake,
what do we see?
And probably the best example of this
was a study from Sirwit back in, I want to say 1997.
And the reason I'm gonna pick out this study
is because it had the best controls in it.
So they provided all the food to participants,
the protein, carbohydrates, and fats were all the same.
It was a, I think it was a 1200 calorie diet,
and they provided all these meals for six weeks
and looked at fat loss and some blood lipids
and those sorts of things.
And they found that, so one group was getting
over 100 grams of sugar a day.
I think it was around, I mean,
it was based on some like body weight,
energy expenditure stuff, but I think it was around
like 110 grams of sucrose per day, right?
Lot of sugar.
Other group, like around 10.
So 10 times different sugar.
And at the end of the study,
there was no difference in fat loss, there was no difference in fat loss,
there was no difference in lean mass retention,
there was no difference in almost any marker they looked at.
The only difference they saw,
all the blood markers improved,
the only difference they saw
was that LDL cholesterol improved a little bit better
in the low sugar group.
And that is probably a function of the fact
that the low sugar group had more fiber.
We know fiber can bind to cholesterol
and lower LDL cholesterol in the blood.
So when I saw that, I was like, oh man.
And then when I looked through all these other studies
with similar kind of controls,
they pretty much show the same thing across the board
on metabolic health, on inflammation.
Like inflammation really isn't different
if calories are controlled with high sugar versus low sugar
as long as you're getting enough fiber.
What about feelings of satiety?
Because-
Well, that is the real downside.
If you're eating a 1200 calorie diet
and 400 calories are coming from pure sugar,
I mean, you're probably going to be kind of hungry, right?
Yeah, I'd be extremely hungry.
I mean, I consume artificial sweeteners for the record,
but there are enough data
and I have enough experience with them to know that
sometimes they will curb my appetite.
Like they'll get me over the bump,
but I've come to associate,
it's probably just pure paired placebo association.
If there is such a thing,
where if I drink a diet Coke,
pretty soon after that, I want to eat something.
Now I've challenged that by not eating something
because I have pretty good discipline and it passes.
But I think I've come to associate the sweet taste
with wanting to eat something.
And nothing to me is more delicious,
well, there are many things.
Like a Diet Coke and a slice of pizza
if I'm in New York or a Diet Coke and a burger,
or there are these food associations.
But I don't think, for instance,
that sweet taste necessarily stimulates appetite.
But I can imagine if I only had, as you said,
1200 calories a day to eat,
and I'm getting 400 of those calories from sugar,
like you said, there's not going to be much,
I better be eating a lot of broccoli as well,
or else I'm going to be pretty hungry.
Just based on my learned relationships
between sweet taste and food consumption.
What I tell people is I would focus less
on like sugar intake.
I mean, if you want to focus on added sugars, that's fine.
Focus on calories, protein, and your fiber content, right?
Because if you're getting enough fiber,
it's going to be hard to eat a lot of junk doing that, right? And when we look at the sugar intake and calorie levels,
all that kind of stuff, actually a great example
would be the case of Dr. Mark Howe.
Are you familiar with him?
He's at Kansas State, he's a nutrition professor.
In 2011, he got the name the Twinkie Diet Professor.
I'm not sure if you saw this, but he-
I know about the Twinkie Defense.
Right, so he asked his students
what they thought mattered more for fat loss,
the calories you eat or the food choices you make.
And they said, most of them said food choices.
And he said, okay, let's do an experiment.
Do you think if I do an 1800 calorie diet
from ultra processed foods exclusively,
that I will lose weight and get healthier?
And most of the students said no.
And so for 12 weeks, he ate 1800 calories.
He called it originally the 7-Eleven diet.
He basically was like,
if I couldn't get it to 7-Eleven,
I didn't eat it.
Now the caveat is he had a multivitamin
and he had some whey protein
so that he was getting enough protein
because it's hard to get protein
from some of those ultra processed foods.
And, but 1800 calories and he lost 27 pounds
and all of his blood markers improved
and his insulin sensitivity improved.
Now, that seems crazy to a lot of people,
but for those people who have worked
and looked at blood work with weight loss and whatnot,
I mean, it's not that surprising.
That is one of the biggest levers for metabolic health.
And so when they asked him afterwards,
what a great diet, like you could eat all this junk food.
And he goes, well, not really.
Like it's 1800 calories of junk food.
It goes really fast.
I was pretty hungry.
And honestly, like at first week it was like,
oh, this is kind of nice.
And then after that I was like,
you know, I really liked just a really big salad,
you know, just something satiating.
So again, no solutions, only trade-offs.
There is a benefit to being able to go,
well, if I can fit into my calories, it's okay,
as long as I get enough fiber and protein.
Yeah, the trade-off is, it's a high budget cost, right?
Same thing with people's,
the data on like moderate alcohol consumption
shows that it doesn't impede fat loss.
It doesn't, if you account for the calories in it.
But I'll tell people like, hey, do you really like,
if you have like two craft beers,
do you really wanna spend four or 500 calories
on like 24 ounces of fluid
that's not gonna impact your satiety at all?
And so I think a lot of people view this very black and white lens, right, where it's like,
oh, Lane says, or this person says, I can eat sugar and lose fat, so I can eat as much
sugar as I want.
No, no, no, no, no, because there are practical limits to this, right?
But take somebody like me, right?
If my calorie intake is my budget, I train two, three hours a day. My maintenance
calories are anywhere from 33 to 3400 calories a day, which is a not crazy amount, but a
healthy amount for somebody of my size. I have a decent size budget, right? If I can
still get my protein in, get my fiber, hit my micronutrient targets, and I have calories left over for energy
filler. Sure, just like if somebody makes a million dollars a year and they want to go buy a sports car,
it's not a great investment. It's not a good investment at all. Why wouldn't they just bank
every single cent they make? Well, because maybe for them, having that little reward
motivates them
to keep doing what they're doing
and making that level of money, right?
But if you're making, let's take loans out of it, right?
If you're making $100,000 a year,
does it make sense to spend $90,000 on a sports car
if it means you can't pay your mortgage
and you can't save money for retirement,
you can't meet your obligations?
No, it doesn't make sense, right?
And so if you're a small woman, small lean mass-wise, who is trying to lose some weight,
does it make sense if you're eating 1200 calories a day to lose weight to spend 300 calories
of that on some ultra-processed junk food?
I don't think it does. But if you're an Olympic athlete who's burning four or 5,000 calories a day,
good luck eating that level of calories from good, minimally processed foods.
You're going to feel full all the time.
There does seem to be a kind of requirement in books, sometimes even in podcasts,
or to take a stance, like to be anti-something.
Yeah.
Because saying, you know, what I personally believe
based on my read of the data is that most people
should strive to get anywhere from 70 to 90% of their food
from non-processed, minimally processed quality foods,
and then allow some space for the, you know,
some processed food, highly processed foods and sweets and things like that, but mostly
to get the macros right, as we've described them earlier.
And what the range will depend on age will depend on activity level will depend on prior
health history.
I mean, there's some people who have enough issues that relate to diet and lack of exercise
that when I've seen them get it right
and undergo such incredible transformations
that like I also know these people's capacity
to fall off the train.
And you want to say, you know,
maybe make that number a hundred percent
so you never go back.
Cause I've seen them slip before and then the guilt
and then they come back, excuse me.
So there are two ways to look at it.
One is you tell people,
listen, you don't have to be perfect, right?
Because if perfection is the goal, you're going to fall off.
But then there are those individuals,
like severe alcoholics who quit drinking,
you don't say like, hey, like,
you can have a beer on Christmas.
You don't say that, right?
It's all or none.
But anyway, here we're getting into the psychology of it.
But I think that that's what you're saying right there is
that's where the individualization comes in, right?
Like it's contextually dependent
and it's dependent on the individual
and what makes sense for them.
And I think we, as people,
if we find something that works for us,
we're a little bit too quick to want to evangelize
everyone else around us because we do want to help,
we do have good intentions for the most part,
and we overgeneralize.
And I've, you know, for me, again, like counting macros,
flexible dieting, I dealt with a little bit of binge eating
when I was young, when I first got into bodybuilding
because I was trying to eat clean,
and I was in college, so my buddies would order pizza
or whatever, and I ended up eating an entire pizza
by myself, right?
And so once I allowed myself to just have that,
the foods I wanted in moderation,
I just got brutally consistent, right?
So that, for me, that was the switch that flipped. But other people,
that may not be the right solution. And I think we make a bunch of, well, that diet worked for me.
We assume physiology, when actually I think it's much more psychology and just trips that
compliance algorithm in somebody's head and it makes sense. And if we could just be willing to say more often,
hey, this is what I do, but I like this
and you don't have to do it, maybe try it.
Yeah.
Oh, and everyone struggles with different things
and everyone finds certain things easier.
Like I'm not an alcoholic, I'm an adult
so I can have a drink or two, I just don't like it.
So everyone assumes because I did this episode on alcohol
that I'm like anti-alcoholic.
I'm like, if you're an adult and you're non-alcoholic,
you don't have issues with alcohol use disorder
or something like, you might guess, like just know the data, right?
But there are certain things like steak, I'm never giving up.
Like you could tell me it takes 10 years off my life
and I'm not going to give it up.
I'll do other things to offset whatever that, you know, I'm never giving up. You could tell me it takes 10 years off my life and I'm not gonna give it up.
I'll do other things to offset whatever that, you know,
decrease in longevity might be.
I don't think that that's a real thing,
but I'm just not gonna give it up.
It's central to my enjoyment of life, period.
Speaking of which,
when if one really wants to wade into the waters
of strong opinions and conflicting data.
We covered this a bit last time you were on the podcast,
but the questions were replete
with requests to discuss seed oils.
I'm sure.
Seed oils.
And I must say this whole thing about seed oils
has really gotten in my head.
Even though I'm a scientist,
like the other day I went to my sister's for dinner
and she made a really nice dinner.
It was from our mom's birthday.
And then she made a really nice salad
and I love fruits and vegetables.
So it was like salad.
And then I looked at her and I was like,
she's made this salad with like grape seed oil.
And I was like, why'd you use grape seed oil
instead of olive oil?
And she's like, well, I ran out of olive oil.
And I found myself looking at the salad,
like, is this safe to eat?
And I was like, I heard your voice in my ear. I also heard Paul's voice in my ear. Saladino's, all these people. And I thought, well, I ate the salad, like, is this safe to eat? And I was like, I heard your voice in my ear.
I also heard Paul's voice in my ear.
Saladino's always the one I thought,
well, I ate the salad, by the way.
I really enjoyed it.
It was good.
Grape seed oil doesn't taste as good to me as olive oil.
I generally like try and use olive oil, butter,
things like that when I cook.
But what's the deal with seed oils?
I understand that they are calorically dense.
You told us that last time.
I understand people tend to over consume them
and then blame them for a bunch of things
that are not related to their seed oilness
rather than their calorie containingness.
These aren't real words, of course, but you get the idea.
But are there any data out there that have your,
you know, ears kind of pricked up to the possibility
that assuming equal calories,
that there might be something bad about seed oils,
or is there zero?
And there's no pressure here to answer one way or the other.
Not that you would respond to pressure from me anyway.
So I think it's all about making the appropriate
apples to apples comparison, right?
Because if we're looking at addition studies of, you know, adding something to a diet,
adding omega-6s, linoleic acid, linoleic acid, whatever, well, if you're adding those,
you're adding calories, which is a confounding variable, right? So ideally, what the real
question is, because the debate tends to be
the people who are anti-seed oil
tend to be very pro-saturated fat.
And so the question really is, okay,
if we swap out these things in a one-to-one ratio,
what is the outcome, right?
So not like, an outcome I mean metabolic health,
inflammation, those sorts of things.
So in the studies, I have yet to find
a good human randomized control trial
where they give polyunsaturated fat
in place of saturated fat,
exchange it a one to one ratio
and see negative like actual outcomes. What about swapping with monounsaturated fats?
Like why are we talking about seed oils
versus lard and butter?
Why aren't we talking about seed oils versus olive oil?
Yeah, that's, I've looked less into that
just because people ask that question yet less,
but it seems like both Pufas and Mufas are better than saturated fat in terms of metabolic health and risk of cardiovascular disease, those sorts of things.
Does anyone have a problem with olive oil?
I'm sure you could find somebody with a problem.
There are people with problems with water now.
Yeah, terrible way for me to pose the question. Is there any reason to think,
like for the person who isn't sure about seed oils,
cause they've just heard enough negative things,
even if there's no basis for it, like me,
who's like, I like butter.
And I also assume that eating too much butter
might not be good for me,
just cause I'm a rational human being
based on my read of the data anyway.
So I have some butter, yes, but I like olive oil.
Olive oil is tasty.
I'm told it's good for me.
Is there any knowledge about anything in olive oil
that says, listen, even if you consume it
in concert with your caloric thresholds,
meaning you're not eating too many calories,
is there anything bad in olive oil?
I'm not aware of anything, but I will say,
like if you extend the logic
of the seed oils crowd or anti-seed oils crowd,
which actually I'm going to make a new logical fallacy,
which is just appeal to seed oils.
Cause I, so many times when I've laid out this data,
I have people go basically like have a freak out
and go, but seed oils, how dare you defend seed oils?
And I'm like, I'm not defending them. I'm just talking about data.
People on X, when I put out questions for you're coming on this episode, literally there
were multiple people that claim that you are paid off by this, by them, by big seed oil.
And I was just like, I have to laugh out loud. I was like, there might be a lot of companies
that are large that make seed oils, but I guarantee they're not
paying Layne Norton to say what he's saying.
So I find this actually very funny as somebody whose research was funded by the National
Dairy Council, the Egg Nutrition Center, and the National Cattlemen's Beef Association
that somehow I would be the person who would be, you know, and all these things act in opposition too.
It's like, well, you think I'm pro seed oil,
but then over here I've been defending meat
with this thing, right?
And then over here I've been defending,
not, sorry, defending is the wrong word,
discussing the data on sugar, which by the way,
those would be in opposition to each other.
And you're very pro fiber.
Right, right.
So yeah.
So, and even when I talk about saturated fat,
I don't like say it's toxic and it's good.
I say, hey, it raises LDL cholesterol,
which is independent risk factor for heart disease.
I'm just discussing it, right?
So I'll say what I said online,
which is I don't defend nutrients.
They don't need defending.
There's not ethical considerations here. If you want to eat them, I don't think nutrients. They don't need defending. There's not ethical considerations here.
If you want to eat them,
I don't think you're less of a person.
And I find it curious that some people get so emotionally
and just like ethically entrenched around certain nutrients.
So the logic goes something like,
well, you have these multiple double bonds
and so they can be oxidized.
And so that oxidation is gonna cause
an increase in inflammation,
which is gonna cause heart disease and cancer, okay?
Well, olive oil is a monounsaturated fat.
It still has a double bond.
So by that logic, it would still be worse than saturated fat.
So when we look at trading out,
and MUFAs would fall in this too, I believe.
If you look at the cohort data,
polyunsaturated fats substituted for saturated fats
have a stronger effect on reducing heart disease
than monounsaturated fats,
but monounsaturated fats do still tend to have
an effect of reducing the risk of heart disease
compared to saturated fat.
Okay, so that would be trading out butter and lard
and meat fats for more olive oil.
Right, and just to add some nuance to it,
not all saturated fat is created equal.
There are like, steric acid, I believe,
doesn't raise LDL cholesterol.
But in general, saturated fat is gonna be something
that raises cholesterol more.
It also, again, and I'm thinking of several
randomized control trials where they feed the same calories,
they feed the same amount of fat,
and they just have people either eat saturated fat
or polyunsaturated fats.
You see either neutral or positive effects on inflammation.
You see neutral positive effects on liver fat. You see either neutral or positive effects on inflammation. You see neutral or positive effects on liver fat.
You see neutral or positive effects
on basically overall metabolic health
and insulin sensitivity.
So again, and Paul actually countered this one time
and he cited a study looking at,
I think it was, I don't wanna say it wrong,
but it was like giving omega-6s
and they saw an increase in lipid peroxidation.
I don't think they were comparing it to saturated fat. I could be wrong, it was like giving omega-6s and they saw an increase in lipid peroxidation. I don't think they were comparing it to saturated fat.
I could be wrong, but again,
this is an example of a mechanism, right?
So lipid peroxidation, mechanism.
We can try to project what that might mean down the road,
but when we look at actual levels of inflammation,
actual risk for cardiovascular disease,
actual insulin sensitivity, actual levels of liver fat,
these are outcomes.
We can actually, if we're worried about those,
we can actually measure them.
And again, some studies show no difference.
Some studies, some of the studies I've seen
on like inflammation between polyunsaturated fats
and liver and saturated fats
don't really show a difference in inflammation.
But I'm not aware of any that show it
going in the opposite direction,
where substituting in polyunsaturated fats
actually raises inflammatory markers
like CRP and IL-6, those sorts of things.
And actually one of the things I tell people
when they're worried about,
fructose activates the novel lipogenesis in the liver.
And I'm like, well, here's this study
where they overfed fructose and saturated fat
by the same amount and saturated fat increased liver fat
by 70% more than fructose.
So if you're worried about fructose,
you better really be worried about saturated fat.
Now again, both, that's an overfeeding study.
They were eating excess calories,
but again, calorie per calorie saturated fat
was worse for liver fat.
calories, but again, calorie per calorie saturated fat was worse for liver fat. So that's kind of where I land on it.
Maybe I'm missing some data, but when you're looking at these studies, again, I'm looking
at not one study, not two studies, I'm looking at 50 studies or however many
studies there is on the topic.
And I go, on this forest plot, where do they land?
And when they're almost all on one side or neutral, I feel pretty confident that that's
something not to worry about, right?
So let's take another discussion to tie this in.
I think this will help people understand
how I come to a conclusion about this sort of stuff.
So I do not necessarily think red meat is carcinogenic,
even though the IRC has classified it
as probably carcinogenic, right?
Because when you look at the studies,
you can find studies that associate red meat with cancer,
and you can find studies that show no association of red meat with cancer.
And so it's kind of all over the place.
Now there's probably more that show the association than don't, but when you look at studies where
they control for overall diet quality, so I'm thinking of a study out of Canada back
in 2020, I think the author was Maximova, I want to say. They looked at
different levels of red meat intake and incidence of cancer, but also with different levels of fruit
and vegetable intake. And so what they found was at low levels of fruit and vegetable intake,
lower red meat consumption reduced the risk of cancer relative to higher red meat consumption.
But at high levels of fruits and vegetable consumption, I don't think there was a significant
difference but actually the high level of red meat consumption was lower risk than low
red meat, high fruit and vegetables.
I believe I have that correct in terms of the absolute risk.
I don't know if it was statistically significant but what that says to me is red meat is more of a proxy
of poor overall diet quality.
And if you control for that with some diet proxy
of fruit and vegetable intake,
you know, if you're eating a lot of red meat
and a lot of fruit and vegetables,
there's not really a whole lot of room in your diet
for a bunch of crap.
You just described the way that I eat
and that anytime a friend of mine, and this happens a lot, comes to me and has, you know,
20 to 50 pounds to lose, you know, well,
make it as easy on yourself as possible.
You can eat meat, eggs, vegetables and fruit,
and that's all you're going to do for two months.
And most of those guys in this case, they were guys,
lost a substantial amount of weight and kept it off.
They all exercised as well.
And of course it's caloric restriction related.
Yeah, hard overeat those foods.
Yeah, but they're not touching pasta,
they're not touching bread.
They asked me all the things that, can I do this?
And I just said, listen, if it wasn't on the list
I just gave you, you're not eating it.
Sounds restrictive.
The good news about something like that is that
fruit generally tastes good.
And steak is very satiating, it's delicious.
If you don't like meat, I suppose this wouldn't work.
But I don't think there's anything magic about that diet.
It just gets people below their maintenance calories
with relative ease.
Well, it's simple.
You could probably still do it in a restaurant, right?
Cause you just asked for meat and vegetables, right?
Socially compatible.
So there is some beauty in simplicity.
There's beauty in what I do, which is I track everything
and I can have whatever I want.
You're going to have to have some form of restriction
to lose weight.
You pick the kind of restriction that you can stick to, right?
So bringing that all back.
So you have this data that's all scattered on meat, right?
And then let's look at something like dietary fiber, okay?
Because people say, well, you can't establish causation.
This is, some people might say, well,
the carnivores might say, well,
it's all healthy user bias.
If it was healthy user bias,
there'd be some disagreement in the data.
And there's no disagreement in the data.
I am not aware of any study looking at dietary fiber intake
or fruit and vegetable intake that doesn't show
reduced risk of cancer, reduced risk of cardiovascular disease,
reduced risk of mortality, usually in a dose response,
and it is very consistent.
Now, some studies might show more of a risk reduction
versus other studies, but if we're doing a line
of a force plot and this is risk reduction,
this is increased risk, everything's on this side, right?
Eating more fruits and vegetables can only be good for you.
Right, so, and there's like kind of a dose response.
So that's when I become, even without randomized control trials necessarily, that's when I
get pretty confident, okay, this is a very consistent effect and there's a dose response
and we're seeing a bunch of different populations across a bunch of different countries in a
bunch of different labs.
Okay, I feel confident.
And so for somebody to make the claim that C2Oils are toxic or that they're bad for you
independent of the calories, I mean, you're basically relegated to using animal studies, in vitro mechanisms, and then epidemiology,
which trying to like tie those all together, I mean, that's not really high quality evidence.
Really high quality evidence is that you have the mechanisms, okay, there's a mechanism,
right, because if there's an outcome, there's a mechanism. The animal data agrees with it,
there's a dose response, the human randomized with it. There's a dose response.
The human randomized controls trial supported,
and then the epidemiology supports it.
Like in order for something
to really truly be strong evidence, we need that.
Now let's take our example of fiber again, right?
Epidemiology supports it.
We have mechanisms in terms of
short chain fatty acid production,
in terms of like insoluble fiber,
moving, like getting food through the gut faster
might be actually better because there's some,
I don't wanna use this word lightly,
but some semi-toxic end products of like metabolism
in the gut that if they stay around too long,
it might have negative interactions
with some of the colorectal cells
and that may be one of the reasons
that insoluble fiber helps decrease the risk
of colorectal cancer.
So we have the mechanisms, the animal studies show it.
When we do the human randomized control trials
looking at shorter term surrogate markers,
they show it move in the right direction
and the epidemiology is in the right direction.
That's when I become very confident about something.
So I'm not ready to say like,
hey, seed oils are really, really good for you, and you should
have a bunch of them.
I'm not saying that.
Obviously, they're calorically dense, right?
People add oil to stuff, and it adds calories.
But anybody trying to claim that there's strong evidence that they're bad for you, we have
very different definitions of what strong evidence is.
And you have to apply your logic symmetrically.
If you were going to use a certain level of logic for one thing, you have to apply your logic symmetrically. If you were going to use a certain level of logic
for one thing, you have to apply it to another thing, right?
And I'll give you an example of this.
When we were talking about the cruciferous vegetables
and isocyanate and it reduces iodine, I said,
well, this person was advocating for a meat-based diet.
And I'm like, okay, well, there's NUE5GC in meat, which by the way, they found antibodies
for that in human thyroid.
Now, I'm not saying that meat's going to mess up your thyroid, but if you're worried about
this stuff in cruciferous vegetables, don't you have to worry about it in meat too? Because if you're applying that logic symmetrically,
I would actually argue that there's stronger evidence that you're worried about the NUE5GC in meat since you actually see those antibodies show up.
So with the the Cetal stuff, I'm like, okay, let's apply this logic to saturated fat for a moment. All right, so
do we have a mechanism?
We do.
Saturated fat raises LDL cholesterol.
Well, LDL cholesterol can penetrate the endothelium.
We know this.
So there gets to be this debate about small oxidized
versus large fluffy.
Both can penetrate the endothelium.
Even large LDL can penetrate the endothelium. Even large LDL can penetrate the endothelium.
Now small oxidized penetrates more easily,
but it carries less total cholesterol
and deposits less cholesterol in the endothelium.
Large doesn't penetrate as easily,
but per unit of LDL cholesterol,
it's depositing more cholesterol because it's bigger.
The net effect is both are equally atherogenic in the end.
So we have the mechanism, right?
Now let's look at the epidemiology.
Well, the epidemiology tends to support it as well.
And then if we look at the,
the really what for me changed my mind,
because I used to be somebody who was on the side of,
ah, it's not LDL doesn't really matter. It's HDL to LDL ratio and was when I saw the Mendelian randomization studies
Which for those who aren't familiar you're basically looking at
Natural polymorphisms on genes that cause differences in secretion of LDL, right and
that cause differences in secretion of LDL, right?
And since LDL is a lifetime exposure risk,
meaning if you're doing a two-year randomized control trial looking at LDL levels,
it says nothing about what they ate before.
And in that timeframe,
what's the likelihood people are gonna have heart attacks
or some sort of myocardial infarction?
It's pretty low.
Now that we have all these like data banks of, you know,
blood samples and whatnot from people
from all these old studies,
they go back and do these analyses.
And when they look at LDL cholesterol and plot it,
so lifetime exposure to LDL cholesterol
and plot it against the risk of heart disease,
I mean, you can pretty much draw a straight line through it.
And so to me, that's pretty strong evidence.
If you wanna apply the same logic of,
well, we have this, you know, and LDL, by the way,
can cause inflammation in the endothelium.
So you have that damage to it
because the April F of E protein,
that attracts inflammatory markers.
So people are getting some of this cart before the horse.
And then the other thing that sealed it for me was again,
like HDL, they looked at the same thing at HDL.
Turns out HDL is just kind of a marker of metabolic health.
It's good to have high HDL,
but HDL itself doesn't appear to be protective
because if they raise it with drugs
or look at people with secretes more or less,
it doesn't seem to independently modulate
risk of cardiovascular disease.
So all that to say, saturated fat is really only an issue,
I would say for the LDL, the fact that it can raise LDL.
And there is some evidence it's not necessarily good
for the gut microbiome because the bile salt in products
from emulsifying saturated fat,
because it requires more bile,
that those might be toxic
to some beneficial species of bacteria.
But here's what I'm not saying.
I'm not saying don't eat any saturated fat.
What I'm saying is, again,
your overall diet quality is what matters.
I think it's fine to have some saturated fat.
I think probably try to keep below seven to 10%
of your daily calorie intake.
What also matters is there's no solutions, only trade-offs.
And so if somebody says to me,
I was able to lose 50 pounds on low carb
and everything got better, but my LDL went up a little bit.
And they felt like that was the only thing
they were able to be consistent with.
I'd say on balance, they're probably better off
with that slightly elevated LDL than they would be
if they kept the 50 pounds on.
Now, I would argue if they had lost the 50 pounds
and lowered their LDL, their overall risk would be lower
than it is now, but again, we have to look at
what can somebody consistently execute.
So all that to say, I'm not saying you should consume
seed oils, I'm not saying that there's no negative downsides,
but if we look at comparing it to a comparable molecule
of saturated fat, there's a much more compelling argument
that saturated fat is bad for you versus seed oils.
Thank you for that very thorough and very clear answer.
And I just will highlight that you ate a steak last night.
So you were by no means anti-meat or saturated fat.
It is steak right in front of a vegan.
Okay.
So it was a-
Not to aggravate them just because
they stuck to their principles, you stuck to yours.
I was originally going to order fish and they said,
it's okay if you want to get a steak. And I said, okay, you stuck to yours. I was originally gonna order fish and they said, it's okay if you wanna get a steak.
And I said, okay, if you say so.
Now they did make a couple of comments in jest
during the meal.
Fair enough, fair enough.
Let's talk about artificial sweeteners.
Sweet.
Those are the other people that pay me.
That's right.
He's kidding folks.
Yeah, I gotta be careful about that. I'll have to be clarified. You and I got into it.
It wasn't a scrap.
We got into a little disagreement about this years ago.
So long ago that it's probably not even worth mentioning
that I was somewhat enticed by the data
from Dana Small's laboratory then at Yale.
I think now she's up at McGill looking at some
kind of Pavlovian conditioning of artificial sweeteners.
So basically children in that case consuming a high amount
of, I think it was either sucralose or saccharin
in combination with a meal, kind of standard meal
and looking at the insulin response
and then removing the food component sometime later.
And what they essentially observed
was a conditioned insulin response.
So then you then have these kids just have
the sweet tasting non-caloric drink minus the food
and they still, and they then saw
an elevated insulin response.
In other words, the same way that Pavlov got dogs
to salivate in response to a bell that was paired with food,
then you remove the food,
and then they just simply salivate in response to the bell.
The idea was, well, maybe you can create
a conditioned Pavlovian-like response
to artificial sweeteners.
Okay, I thought it was kind of a cool study.
Looking back, I probably wouldn't have covered it
the way I did, because it's not a typical scenario.
I think the more important questions are,
is there any evidence that artificial and low calorie
or zero calorie sweeteners like Stevia,
we have to be very careful here.
No artificial.
That they are somehow dangerous
in any of the following ways.
One, do they alone increase insulin
to levels that are problematic?
Two, do they stimulate appetite in a way that's problematic,
independent of insulin or maybe as a consequence of insulin?
And then three, what's the story with their potential effect
on the gut microbiome?
I think those are the three categories that come to mind.
There are probably other categories.
And I just want to say for the record,
then and now I'll consume some aspartame every once in a while
in the form of a Diet Coke.
Stevia seems to be in a lot of the things that I consume
and I don't have a problem with that.
So I'm not anti-artificial or low calorie sweetener.
Although for reasons that are entirely personal
and have no scientific basis whatsoever,
I avoid things with sucralose in them.
I don't really like the taste of it
and I have kind of an aversion to it
for uninteresting reasons.
And that's a great way to couch that
of I don't have data for this,
personally I don't do it.
Yeah, if I see something I'm like,
eh, no, aspartame, fine, stevia gets the thumbs up by me.
And I will choose low calorie or zero calorie sodas
or drinks or energy drinks
when I have the option to have something with sugar.
It's just kind of, but I'm not anti-sugar either.
I just have developed this as a habit.
Yeah, well-
I prefer to get my calories from food.
Yeah, you'd prefer to have a steak
as opposed to having the cola.
Right, steak, strawberries, blueberries, oatmeal, rice,
butter, olive oil, and all the other delicious,
wonderful things as opposed to a Coke.
I'd rather just have a Diet Coke and eat a bit more steak.
So let's take the insulin thing first.
So it's interesting mechanism that they're showing there.
What I would say is there's been a couple of meta-analyses
now looking at different
non-nutritive sweeteners and their effects on insulin, and they don't show an effect.
So there's no real effect. Let's just kind of play it out logically a little bit. If
there was a significant effect on insulin, one or two things are going to happen. You're
going to see a drop in blood sugar because you're not eating anything, right? So most of us, if we eat, if we drink a diet soda, we don't then go hypoglycemic, right?
Or if there is an increase in insulin, if blood glucose isn't dropping, then there must
be a corresponding increase in glucagon, which is basically offsetting all of insulin's issues.
I don't think either of those things happen.
I think it's inert and that the research
and the meta-analyses tend to show this.
There was a, I'm thinking of two meta-analyses
where they looked at these, they looked at glycemia,
they looked at insulin sensitivity,
and they looked at insulin release,
and they just didn't see any effect.
Now, when it comes to, what was the second point?
So we have insulin, we have, does it stimulate appetite
in ways that may or may not be related to insulin?
You ruled out insulin increase.
So like, could there be a pairing of like,
okay, every time I eat, I have a diet soda.
Then if I have a diet soda on its own,
does it stimulate the desire to eat
a la the Dana Small study?
But, and by the way, that study was halted.
They, this is the problem with that study
is it was being done in kids.
The increases in insulin that they saw
in a subset of the kids were so dramatic.
This is the way she described it in a talk.
So I feel comfortable saying this.
Maybe she's changed her tune,
but in this online talk, an academic talk,
the increases in insulin were so dramatic
that they were concerned
about the kids becoming
pre-diabetic. So they halted the study, which means the totality of the data never came in,
means that it's hard to draw a conclusion. Okay. When we talk about studies, we're always
talking about means and averages, right? I leave open the idea that there could be subsets of
populations, that there could be individual responses. I leave all that open. So on average, if that's true
and there is a condition response,
we're worried about, well, one,
is there effect on appetite,
where people are gonna eat more,
even if those things don't have calories,
they're not gonna make you fat,
there's no insulin release, okay,
they're stimulating you to eat more.
Well, if we look at the randomized control trials
where they tell people,
hey, instead of regular cola, drink diet cola.
If that was true, an actual outcome,
we would see people on diet soda
either not lose weight or gain weight,
definitely compared to water
and probably similar compared to a regular cola,
maybe a little bit less,
but we would expect to see weight gain.
We actually see the exact opposite thing.
So we have several randomized control trials now
where people comparing not just diet soda,
I don't wanna just say diet soda,
a lot of them are low, no calorie beverages
is kind of what they talk about
because not everything's technically diet soda.
But I think people know diet drinks in particular.
Where they're comparing them,
they tell people either switch out,
either have cola, either have diet soda,
or sorry, diet drink, or just use water.
Now, they absolutely, every single one of these trials,
they lose weight going to diet drinks,
usually a pretty significant amount of weight.
Yeah, and usually, as I recall,
pretty significant amount of diet drink,
like two liters a day even,
like the person will carry around a liter
or two liter of diet drink and sip on it
whenever they get thirsty or hungry.
Yeah. Yeah.
So then what's really interesting is they,
they've done direct comparisons to water.
And some studies don't really show a difference,
but several studies and several meta-analyses now
have shown that when people,
if they have either them use water in place of regular soda
or diet drinks in place of regular soda,
that people actually lose a little bit more weight.
And it's statistically significant with the diet drinks in place of regular soda, that people actually lose a little bit more weight and it's statistically significant with the diet drinks.
Now, I don't think diet drinks are fat burners, okay?
They're not causing you to have increased energy expenditure.
But if you are somebody who is used to a sweet taste,
if you switch to water,
perhaps you're seeking out that sweetness elsewhere.
And so maybe those people are consuming
a little bit more sweet food or whatnot.
Whereas in the diet drink group,
maybe that's filled that sweet taste for them.
So I don't get into the bag,
and this gets it like people get very like ethically charged
about the, well, what's wrong with drinking water?
There's nothing wrong with drinking water.
If you can drink water, you feel satiated
and you maintain your body.
I'm just chuckling because if drinking water
becomes an issue online, then I might quit.
No, it already has.
All right, well, I'm not quitting, but that's ridiculous.
Yeah, well, so again, perhaps that mechanism exists,
but at least on average, it's obviously washed out
by the fact that for whatever reason,
for most people who do this, they get a little
bit more satiety out of consuming a diet beverage as opposed to substituting water for a beverage.
Now again, if you're somebody who you can drink water and you don't have an inclination
for diet drinks, well then don't do it.
You don't do it. You don't need it. But again, I look at it as we need to lower the barriers
for people to start getting healthy.
And unfortunately, a lot of people with the message
of just drink water and they'll say,
well, diet coke is just, or diet soda is just bad
for you as regular soda, or it's worse for you
than regular soda.
Their intention might be, I just want people to drink water.
But the outcome is people go, I can't give them my soda, so I'm just going to drink regular
soda then.
And so while your intention was positive, the outcome is actually kind of disastrous.
And so we have to disconnect what the intentions of the message are from what it actually produces. And so that's why I say, hey, if we're moving levers, if somebody is obese and they came
to me and they're like, well, you know, I drink five colas a day, I'm like, fantastic.
Because I'm thinking five diet sodas instead, and now we have just saved 750 calories and
you're going to start losing weight just by doing that, right?
Which again, people say, well,
what about 100 years down the road or whatever?
I'm like, well, most of these sweeteners
have been around for decades now.
We do have quite a bit of data on them.
But let's say that there is something we don't know.
Again, I'm shooting the alligator closest to the boat, right?
Like we know what obesity does.
So, and people who do these diet drinks lose weight,
they get more metabolically healthy.
So again, if it comes down to soda or diet soda,
by all means, let's do the diet soda.
And if there's some small negative effects to it,
we'll deal with them.
So that brings me to the gut microbiome.
Most of the research studies in humans
where they use reasonable doses don't really show much effect on the gut microbiome. Most of the research studies in humans where they use reasonable doses don't
really show much effect on the gut microbiome. However, there are a few with particular sweeteners
like sucralose that do show an effect. Now there was one that got a lot of play and you
and I actually talked about this. I think we actually talked on the phone about this
and it was an interesting study. I thought it was well done, but I wanna be careful about how overgeneralized it was.
So the first part is in this study,
they selected for people who basically,
they did a very, very like intense selection process
where I think there was over 1,500 people
who were like originally included in the study,
and they whittled them down to like 100 something
because they wanted people who had really hardly ever used artificial
sweeteners in their life and that's a pretty small percentage of population.
What they found was a lot of people submitted saying I don't use them, I've
never used them and then when they did dietary recall logs like oh well
actually you're using it here and you're using it here. And so they selected all these people out.
And they found that when they gave them sucralose,
that the composition of their microbiome changed
and they called it dysbiosis.
And I'll come back to that
because that's a scary sounding word.
First off, what's interesting is,
if you're somebody,
that population that they're selecting, those are probably people
who have been specifically trying to avoid them.
Because even if you don't try to consume them, they're everywhere.
So if you haven't been consuming them, it's likely that you're specifically trying to
avoid them, which probably means that you have negative thoughts and beliefs around
artificial sweeteners.
And again, we've discussed the power of belief before. probably means that you have negative thoughts and beliefs around artificial sweeteners.
And again, we've discussed the power of belief before. I'm not saying it was a bad study because of that. I'm just saying we have to be careful about how much we overinterpret this research data.
Are you saying that the potential that those subjects had to believe that zero-calorie
sweeteners or low-calorie sweeteners could be bad for their microbiome
might have actually made their gut microbiome more dysbiotic?
Maybe.
I mean, again, what we've talked about,
the power belief is very powerful.
I have no way to support that, right?
I'm just saying be careful before you overgeneralize.
Plus it was a two week study and-
Just two weeks?
Yes, it was two weeks.
Now again, two weeks is enough time to show differences
in the gut microbiome.
Actually a few days is typically enough time.
And only for sucralose.
So Stevia, no change.
There was another sweetener that I think had a change.
It might've been Saccharin.
Saccharin and sucralose are the ones that seem
to always show the biggest effects, quote unquote.
And I don't know how often those are used
in diet drinks these days.
I mean, less and less.
I mean, it's usually aspartame, stevia,
more in the kind of wellness, health, fitness crowd drinks.
Sucralose is pretty ubiquitous
in a lot of diet products and whatnot.
But like being frank, my whey protein powder
without work nutrition is sweetened with sucralose.
I mean, it's a great sweetener.
And so some people will take that as well.
Of course he's gonna defend sucralose
because it's in his protein.
But if I thought it was really bad,
I would just use a different sweetener.
So what I will say as well is gut dysbiosis sounds bad,
but it simply means that the gut microbiome changed.
And I have several friends who are gut microbiome experts.
And they'll, when we sit down and talk about this stuff,
they're like, I mean, their takeaway is,
yeah, like 50 years, we'll probably have a really good idea
of this stuff, but right now we like,
we just know that certain things change it.
We don't really know, like if it's a good change,
bad change. So I'll give an
example. There was another study that did show a gut microbiome shift with sucralose and they showed
some of the species of bacteria that were increased or decreased. And one of the species that was
increased, I believe, I'm going to butcher this so badly, I think it was Blaudia coquitis was the
name of it, or at least how I tried to read it,
right? Because these are very like strange Latin words. Yeah, the names of bacteria are really
difficult to pronounce. Now, what's interesting is this species of bacteria was associated with
better metabolic health, lower risk of obesity, better insulin sensitivity. And so, I kind of
walked away saying, well, couldn't you make the argument that sucralose actually changed the gut
microbiome for the better based on some of this data? And so, I'm not saying that. What I'm saying
is the following. We don't really know if that change to the gut microbiome
is a good change, bad change, or neutral.
We just know that it changes.
So if you want to avoid, fine.
But if you're somebody who really struggles
with moderating your intake and a sucralose is,
or an aspartame, or whatever have you,
helps you moderate that intake.
Then again, you're shooting the alligator
closest to the boat.
Let's focus on the big stuff, right?
And that's kind of where I land.
And again, I hold open that perhaps my mind will change
and adjust, but sucralose has been around a long time.
The other thing people bring up is cancer.
They'll bring up cancer with artificial sweeteners.
I'll give you an example why I'm not worried about this.
First off, you have to keep in mind
the negativity bias in the news, all right?
Things that are negative are much more likely to get played
than things that are positive, okay?
Think about how much you hear about
this causes cancer, this causes heart diseases
versus this protects against this,
this protects against this.
It's also safer to when the media warns people off things
as opposed to towards things
because if they push people towards things,
there's more liability.
Push people away from things rarely.
Are they responsible for the opportunity cost there
or the trade-off as you referred to it?
Right.
So you hear a lot of people like,
oh man, all these studies say that these cause cancer.
So again, I'm going to give a shout out to Consensus
because it's a great AI tool that basically will give you,
like if you ask it a question
and there's some filters that help with that,
it will give you kind of like,
this percentage of studies say yes,
this percentage say possibly, and this percentage say no.
I've used it a little bit.
Yeah.
It's a great tool.
And if you type in, does aspartame cause cancer,
for example, 80% say no.
And then like, I think the split is like 13% say possibly
and 7% say yes, right?
But you would never know that from like listening
to social media, watching the news.
But I wanna point out one study in particular
that did show an association of aspartame intake with cancer.
And it was from the Nutrisanti cohort.
I think that was out of France, like 100,000 people.
And they looked at like people who didn't use it
versus people who were like low moderate users
and then people who were like high users, they categorized them to the turtles.
And between the no non-users and the low moderate users,
there was like a, I believe it was like a 15-ish percent relative risk increase in cancer incidents.
And that's what got reported in the news.
And then that dropped to like a 6% increased risk
in the high group.
So it did this, which I'm not aware of any carcinogens
that they actually decrease in terms of the risk,
like carcinogenesis as they go up in like the concentration.
And so to me, you know, one of the things
you've got to realize, my PhD advisor used to say,
if you torture the data enough,
it will confess what you want it to say.
And so if you go through a large group of people
and you start trying to associate things with other
things, you'll find things, but you've got to be very careful with how strongly you interpret it.
And so for me, again, if I'm feeling strongly about, for me to feel strongly about something,
there has to be some kind of dose response or at least like if there's a bell curve,
sometimes you see that. But you know, very rarely, especially with cancer stuff,
usually this is kind of a linear effect.
And so again, that's where I land right now
on artificial sweeteners.
I land on them as a useful tool for a lot of people.
I don't think they're magic.
I think they occupy that sweet taste for a lot of people.
And if you can completely avoid them and abstain from them
and you're perfectly happy, then by all means do that. But if they help you and you're perfectly happy, then by all means do that.
But if they help you maintain a healthy body weight,
then by all means do that.
Love it.
You've dealt with some injuries, you've dealt with pain.
You talked a little bit about how reducing your stress
and interpretation of the pain could help.
I want to talk about pain and pain management,
but before we do that, a more general question
that relates
is about recovery tools.
Many, many people want to know, okay,
if we were to create the pyramid of the hierarchy
of tools for recovery after training,
and here let's change out, or let's use resistance training
and cardiovascular training interchangeably.
Some people run hard, other people lift hard or do both.
From the moment that session ends,
what do you have in your kit of things to maximize recovery
over the shortest possible amount of time?
And I can immediately think of sleep as critical,
but what are the things that you can do
starting from that final repetition?
So I think it's not so time dependent.
And like I said, it's more about what you do
over the course of 24 hours
and in your day-to-day lifestyle,
but sleep, as you said, also your nutrition.
So being consistent with your nutrition
and you don't have to get in,
ultra fast digesting carbohydrate
and 50 grams of weight isolate right after you eat.
But it's probably a good idea within a couple hours
of finishing your workout that you have a meal
with high quality protein
and that you're just eating an overall healthy diet
throughout the course of a day.
And we've kind of discussed that at length.
You could do it immediately after your workout.
Yeah, you can, absolutely.
Quick, I'm going to layer in an additional question.
Is there any evidence that fruit is not good
at replenishing glycogen as compared to starch?
Because the reason I ask this is that,
like if I finish a workout and I have some,
like a whey protein shake with a bunch of berries in it
and a couple of bananas, assuming equal calories,
is that going to replenish glycogen the same way
as if I have a couple scoops of whey protein
and a bowl of oatmeal or rice?
This is going to circle back to our mechanism versus outcome.
And this is one where I changed my mind
because of seeing outcomes.
So the reason this comes up is fructose,
your muscles and other tissues lack the enzyme
to turn fructose into muscle glycogen.
Your liver has that enzyme, so your liver can take fructose
and turn it into liver glycogen.
So that has led some people in sports science
or research to say, well, don't have fructose
after a workout.
Actually, fructose is kind of a dead carbohydrate, right?
Because it's not going to replenish muscle glycogen.
And then I was reading a study from Tracy and Josh Anthony, which were, they came out
of Lehman's lab and they actually are responsible for really flushing out a lot of the mTOR
pathway, a lot of that translation initiation pathway. Very, very brilliant people. I was glad I got
to see them a few weeks ago when my advisor got his award. Tracy personally taught me how to
western blot, so thank you Tracy. They did a study where they looked at glycogen replenishment after
exercise giving either sucrose, which is 50% glucose, 50% fructose, or pure glucose.
And actually, if I recall correctly,
they actually got a little bit better muscle glycogen
replenishment with sucrose.
Now this, how do you explain it?
That seems completely counterintuitive.
And there, I believe, again,
it's been some time since I read this paper, but I believe the explanation was
by providing some fructose, what you're doing
is you're kind of satiating the liver's need for glucose.
And so that glucose that does come in from sucrose
can then kind of just bypass the liver
and be available for muscle.
Whereas if you're getting pure glucose,
the liver's
going to start picking things off. Now, if I recall correctly, it wasn't a big difference
in the rate of glycogen replenishment. But the other thing is people don't realize,
well, even though fructose can't be used to replenish muscle glycogen directly, you forget
about how the body operates in terms of whole body metabolism.
And you can store fructose as glucose, glycogen,
in the liver, and then the liver can release that glycogen
at some point into the bloodstream,
and then that can be taken up by the muscle
and turned into muscle glycogen.
So again, when it really boils down to it's,
what are you doing on a 24-hour basis?
And what I will say too is,
the rate of glycogen replenishment gets really tossed around a
lot as something really important.
For the most part, the rate isn't so important.
If you're eating enough total carbohydrate on a total daily basis and enough calories,
you'll replenish your muscle glycogen.
And most people always say, dude, you're weight training for an hour.
You're gonna do it again in 23 hours.
You got plenty of time to replenish that glycogen.
You don't need cyclic, destrin, or dextrose, or whatever.
And so I'm not really worried about that.
I think where the rate of glycogen replenishment
really matters is when you're dealing with athletes
who have multiple events in a day, right?
Where it is they're gonna perform
and then they need to replenish quickly
before they go to the next event.
Or, you know, people obviously doing like endurance exercise
where like Iron Man's triathlons
and that sort of thing where, you know,
getting in that replenishment
and keeping it going is very important.
But I think for the average person
who's just exercising once a day, not really a big deal.
Just make sure you're eating enough total carbohydrates.
So for you, the berries and the fruits
and the whey protein afterwards, excellent.
Okay, and then perhaps, and then typically I'll do a meal
that includes some starch a little bit later in the day.
Great, so nutrition post-workout or in the hour or two
post-workout, making sure you eat enough
in the following hours.
Do you include any kind of stress down regulation?
Are you, do you do anything else besides nutrition
and sleep to accelerate recovery?
So stress management, like you said, so,
I am blessed enough
that I currently live in a home on Tampa Bay
and I get to watch the sunset over the water every night.
And that might say, that might seem like a weird thing,
but I really feel like that has helped with my stress level.
Viewing horizons, we know,
puts you into panoramic vision.
We know this from stuff my lab has done.
This is right in your wheelhouse right here.
Oh yeah, panoramic vision. We know this from stuff my lab has done. This is right in your wheelhouse right here. Oh yeah, panoramic vision is a,
will come off the accelerator of the sympathetic arm
of the autonomic nervous system,
which is just nerd speak to say,
enjoy those sunrises and sunsets, they are very calm.
I was talking to a friend of mine, we were sitting out,
I said, well, Andrew would approve of the sunset viewing.
He might not approve of the bourbon I'm having with it, but.
You don't need my approval anymore.
So whatever, could you just slow down a little bit,
you know, and just decompress and feel better.
And so, I mean, another thing I'll do is I'll, you know,
once the, if I had the kids, once I go to bed,
I'll go downstairs and I'll lay on the couch with my cat
and I'll play a video game.
Nice.
You know, just relax.
Yeah, decompress.
Just decompress, you know.
Things you enjoy.
Yeah, I think things you enjoy.
Like obviously like, you can't drink a 12 pack of beer
and have that be conducive to that sort of thing.
But the other thing I will say is I think a lot of people
focus too much, especially with resistance training,
there's some evidence that being just overall active
lifestyle, like going out, like I remember
when I was first getting into lifting like back in the early 2000s, the guy's like,
I go in and I lift and then I lay down the rest of the day, right?
Because I got to recover, right?
I think the research actually suggests that you're better off like having kind of an
overall active lifestyle, you know, that yeah, it's important to rest and recover, but
it's probably important to move your body throughout the day.
You know, active recovery does have some good data on it.
Awesome.
Earlier, we were talking about protein.
Actually, several times we talked about protein
and I neglected to ask a question that is very timely
because I just did an episode,
a solo episode of this podcast recently
about skin health and appearance.
And I looked at the data on ingesting collagen.
Could be from bone broth or other sources of collagen.
Typically it's powdered collagens,
anywhere from five to 30 grams of collagen.
And I was kind of surprised at the results.
I also talked to some dermatologists.
Basically the results say in these papers,
these meta-analysis I looked at
and in speaking with these dermatologists
that the conclusion was that regular consumption
of collagen on the order of anywhere
from five to 30 grams per day
with a little bit of vitamin C,
a couple hundred milligrams of vitamin C
for whatever pathway related reason
seemed to improve skin appearance.
Fewer wrinkles, reduction wrinkles, more skin tautness, appearance of moisture, et cetera.
These are subjective measures, right?
I don't think they were calipering the skin
and looking at tensile strength and things like that.
But people felt they look younger, et cetera.
And I was surprised, really surprised,
because without making this too long a question or story,
a few years back, there were some claims
by not to be
named individuals on Instagram saying, well, if you want to improve the function of your
liver, eat liver. If you want to improve the function of your heart, eat heart. If you
want. And, and you and I were just like, no, you're the nutrition biochemistry guy. I'm
the neuroscience guy. I have a little bit of a background in cold physiology that I
rarely talk about, but in any case, but you know, physiology. Yeah. I mean, there is, we both agree, there's like zero evidence that ingesting a protein,
which of course is broken down into its amino acid constituents in the gut, would somehow
lead to selective shuttling of those amino acids from liver that you ingest to your liver.
That just is like a, there's only one word for that.
It's like a crazy unsubstantiated claim.
And then some papers were sent my way,
which were in a different language.
And like I was trying to, anyway,
zero minus one evidence as I would say.
And yet the whole notion that consuming collagen protein,
which Dr. Gabrielle Lyon told me
is actually a pretty low quality protein
on the kind of protein quality scale.
It's like tendon and toenails and all this stuff gross,
but yeah, that's what it is.
Somehow leads to improvements in actual collagen,
which is of course is a native protein of the body.
Right.
So I went digging.
I just want to, before I get your answer,
I went digging and I found, again,
a not to be named individual has this kind of wild story
on the internet that, ah, well, this is because
it's broken down
into the dipeptides and tripeptides in the gut
that somehow inform the body
that there's an injury in the collagen.
And we have quote unquote breakdown of collagen,
AKA injury, I don't know, breakdown of collagen
and elastin in the skin all the time.
And then the body recognizes the presence
of those dipeptides and tripeptides,
so little groups of twos or three peptides, not just one,
and sends those selectively to the skin.
And so it's like, once again, it's like,
it makes sense as a mechanism if it were true,
but I just had to like roll my eyes.
I was like, oh no, okay, I'm gonna pitch this over to Lane
as I am right now.
So Lane, take it away.
What's the story?
Does ingesting collagen improve skin appearance?
And do we have any idea what the mechanism might be?
Okay, so-
Sorry for the long question folks,
but I had to set the stage.
Well, first off, I will never make somebody apologize
for giving a long winded preamble, right?
Because you know how long I'm about to go.
Well, we're both scientists.
So I will tell you, I actually,
after I commented on that post,
I went and looked up some more research
and I've actually changed my mind a little bit, okay?
Which probably wouldn't surprise you
that I haven't completely changed my mind,
but I've shifted a little bit.
So first off, my first thought
was exactly what your thought was.
This is all getting broken down
to a constituent amino acids.
It's not like you're taking collagen
and just putting it in the place you want it.
That sort of thing.
My skepticism was also because one of the highest quality protein metabolism labs out
there where Jordan Tromelin is, is Luke Van Loon.
Luke Van Loon's lab is one of the best protein metabolism labs in the world.
And they were publishing research
back when I was in graduate school.
In fact, I think Jordan and I were actually
in graduate school at the same time.
So they did a study where they looked at,
after exercise, giving either whey protein
or collagen protein, and they looked
at skeletal muscle protein synthesis, and they looked at skeletal muscle protein synthesis
and they looked at connective tissue protein synthesis.
Right?
And they saw no difference between whey protein
and collagen protein and connective tissue synthesis
after exercise.
And so, but by the way,
collagen did not stimulate muscle protein synthesis,
even at like 25 grams, I think it was,
which most protein sources, even like plant protein sources will stimulate muscle protein synthesis, even at like 25 grams, I think it was, which most protein sources, even like plant protein sources, will stimulate muscle protein synthesis
at like 25 grams.
So it's very low quality.
So it's low quality in terms of skeletal muscle.
Anybody who's telling you like collagen is good for building muscle, I mean, it's better
than no amino acids, but it's one of the worst you can get in terms of all protein sources. So that study, again, since I know this lab,
I have a lot of trust of the data that comes out of there.
And it was a well-designed study,
it was a well-executed study.
But then there's these meta-analysis out there,
looking at skin, looking at,
even like some were trying to make associations
with connective tissue injuries and whatnot.
And again, I'm always a little bit have the heebie-jeebies
when we jump straight to we have an outcome,
but we don't know what the mechanism is, right?
And then I started reading a review by Luke Van Loon
actually, and was talking about like the,
so the collagen is three alpha helixes.
So if you think about DNA, right,
it's a double helix, right?
So think about three helixes,
and an alpha helix just refers
to the way a protein is shaped.
And they are, they have a very large amount of glycine. So glycine
is a non-essential amino acid, and every third residue in collagen in the three alpha helixes,
every third residue is a glycine molecule. So 33% of collagen is glycine. And then I wanna say 10% is proline
and then another like 10% is hydroxyproline.
So proline that's had a hydroxyl molecule added to it.
And that's done apparently the hydro,
nobody needs to know this,
but just for fun stuff,
the hydroxyproline helps stabilize the structure
because of the hydrogen bonding
with the hydroxyl molecules, which I found interesting.
So you have these three amino acids and amino acid derivatives that make up over half the
amino acids in the collagen protein.
And well, my next thing was, well, a lot of non-essential amino acids,
if you give them in the diet,
they don't really raise non-essential amino acids
in the plasma because the gut, liver,
extract a bunch of them.
Glycine is different.
If you give, there was a study looking at
giving just one gram of pure glycine
and looking at the rise in plasma glycine
and I think it went up,
like I think the like native level of glycine
in the plasma is something like 250 micromolar
and after giving a gram of it,
it went up to like 400 micromolar.
I'm giving my best estimate based on the graph I saw.
And so then I got thinking,
okay, that's I guess possible
if you have more glycine and proline.
I didn't look, I didn't see the proline data.
But if you have more glycine and proline that's winding up in the plasma, not that they're
being directed to those tissues, but since those tissues use so much of that amino acid,
perhaps it does help. And then if you look at like whey protein
versus collagen and the content of glycine and proline, I think collagen has like three
to ten times the amount of glycine and proline in it compared to whey protein. So am I ready
to say collagen helps skin and connective tissue and what not?
I'm not, because I'm still, you know, this study looking at connective tissue synthesis
doesn't show anything, so the mechanism is incomplete.
But there is a plausible, at least they've shown that glycine can go up in the plasma
from taking it in and
it is a big component of collagen. So why aren't we just suggesting that people
take glycine instead of collagen? Well I think what they would say is like
there's because you're getting hydroxyproline in the collagen in the
collagen that you're taking that probably I don't know how much hydroxyproline is
typically in the diet, you know?
But I would say, again, I am a little bit nervous about like a lot of these subjective measurements
of skin appearance and skin tightness.
I mean, I'm not saying faking data.
I'm just saying that data is easy to get wrong
because it is subjective, right?
It's less, the more subjective things are,
the more bias you introduce.
So I don't open the idea that supplement collagen
could help with skin, hair, nails.
I'm not convinced by the data,
and I'm not gonna tell people to spend their money on it
just yet, but I'm gonna stop short of saying
that I think it's BS.
And I've actually changed my tune slightly on that
from looking in this day a little bit further.
Thank you for that very thorough answer
and very clear answer.
If nothing else, it tells us that collagen protein
is going to be least ideal for post-workout protein
because of the fact that it lacks some significant amounts of leucine,
et cetera.
So it might be good for skin.
Definitely not a great protein for dietary protein reasons.
No, it's very, very low in the branch of amino acids.
Like the lowest in leucine of any protein source
I'm aware of, I think it's like 2% leucine,
which is like most even like
the worst plant-based sources of leucine are like 6.5% leucine So like the worst sources of protein the diet are still like three times more leucine than you get in collagen protein
So inequality whey protein would be the highest loose. Oh, you'd be 11 12 13 percent
Yeah, eggs whey protein eggs are to be around 9% leucine,
you know, beef, chicken.
Most of your animal sources are around 8%.
And then most of your plant sources are 8% and under.
Great.
Well, Dr. Lane Norton,
thank you for coming back here
for the second time on the podcast.
I must say it's a true pleasure to sit down with you
and discuss training, nutrition, supplementation,
recovery, pain management, stress, life advice,
and for so many reasons.
A, you're a serious scientist,
you know, in our business of science,
that really means something.
You're serious about the science
and you're a lighthearted guy in the right context
but you're a serious scientist.
You believe in the process and you provide the nuance
even though that might not be convenient
to what somebody wants or convenient to the discussion.
By the way, not convenient for me either.
I don't know that this stuff be so simple, you know?
Right, sure, sure.
You're like the rest of us.
And at the same time, I really appreciate it
because we are now also colleagues
in the public health, public facing landscape,
social media it's sometimes called,
but a lot of landscapes, podcasts, YouTube, et cetera.
And it's required, it's needed that people like you exist.
And I will go so far to say that,
and I'm not alone in this, right?
Because I've talked about this with Rogan
and with Dr. Gabriel Lyon, excuse me, and others,
in an ocean of noise, some of which has validity, right?
But in an ocean of noise about nutrition and training
and all these different things
and how to evidence-based blank and science-based that,
you really clearly are pure signal.
Like you're going to take as much time
and as much effort to communicate the real signal.
And you today have really defined for us, for you,
what is real versus not real, versus a maybe.
And I just want people to hear that loud and clear
because I think sometimes people pay attention
to how spirited you are and they miss the fact
that in that spirited nature and in the nuance
and in the,
look, we're both long-winded at times.
Like I know, because I know this for myself,
but I certainly know it for you,
that that comes from a place of respect for the science
and respect for your audience.
That is not being dismissive.
That's actually respect for them.
It would be disrespectful
to just give them the answer they want
or give them a quick answer without the explanation.
So I just really want to extend like a real voice
of gratitude for you, for what you did for us today.
Just far too much to list off.
It's all so valuable, just so, so valuable.
And also what you do on social media and the way you do it.
And look, I also really love and respect
your fighting spirit because you're fighting for truth,
you're fighting for good.
And I also love the posts and the pictures of your kids.
They're delightful.
And it's great to see the balance
in your life you've created.
So I could go on and on,
but I'm going to cut this short by just saying
a giant thank you for being the signal among all the noise.
Well, speak for yourself with being long-winded
because I'm not.
Honestly, I appreciate that. That means a lot to me.
I recognize how valuable your platform is
and how many people want to be on it.
And the fact that I've been asked to come on again,
I really appreciate it.
And to be able to have the opportunity
to disseminate this information
and not just talk about the studies,
but talk about, hey, here's a method of thinking.
Here's a way to approach this stuff.
And I mean, you kind of pointed out,
I would love to be able to say, yeah, seed oils are bad.
I'd love to give you that answer.
I can't do it.
I can't make myself do it because I look at the evidence.
And I'm glad you said spirited.
I do feel like I do have some fighting spirit,
but at the end of the day, I tell people,
you know, I'm human.
I've got my own biases, my own beliefs,
and I like making money like anybody.
But I, and I like to be right.
But at the end of the day,
I want to help.
And I believe that if I continue to execute on that mission,
that financial stuff will take care of itself.
And at the end of the day, I just want to be,
want to be a net positive on the world.
So thank you for giving me that chance.
It's been a true pleasure
and you're absolutely more than net positive on the world.
And we'll just have to have you come back
and talk to us again before long.
Thank you so much.
Anytime. Thank you.
Thank you for joining me
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