ZOE Science & Nutrition - Stop dementia before it starts
Episode Date: March 28, 2024How early should you start taking dementia seriously? Here’s 5 things you can do now to reduce dementia risk today. Professor Claire Steves and Jonathan Wolf explore the multifaceted world of dement...ia. They delve into the significance of dental health, genetics, diet, and physical activity — plus, they unpack the latest research — to give you practical strategies for preventing dementia. Claire is a consultant physician in geriatric medicine at Guy's and St Thomas' NHS Foundation Trust. She’s also a senior clinical lecturer at King's College London and deputy clinical director of the institution’s Department of Twin Research and Genetic Epidemiology where she leads research on the characterization of physical and mental aging traits and frailty. 🌱 Try our new plant based wholefood supplement - Daily 30 *Naturally high in copper which contributes to normal energy yielding metabolism and the normal function of the immune system Learn how your body responds to food 👉 zoe.com/podcast for 10% off Follow ZOE on Instagram. Timecodes: 00:00 - Introduction 01:26 - Quickfire questions on dementia 02:42 - Main discussion: understanding dementia 04:18 - Control over fate with dementia 06:52 - Why older people get more fractures 08:32 - Warning signs of dementia 09:55 - Unique aspects of dementia 12:12 - Cellular level discussion on dementia 15:49 - Risk factors for dementia 16:07 - Inheritance and dementia 18:29 - High-risk factors for dementia 19:15 - Fetal development and dementia risk 21:47 - Brain reserves and mental health 24:24 - New advances in dementia treatment 30:47 - Medications and life expectancy 33:21 - Diet and dementia prevention 35:58 - The role of physical activity 39:45 - Oral health and dementia 42:10 - Social interaction and brain health 44:02 - Diabetes and dementia 45:36 - Women, HRT, and dementia 49:09 - Recap: Types of dementia 53:39 - Hearing aids and dementia prevention 55:39 - Episode sign-off Studies related to today’s episode: Brain-age is associated with progression to dementia in memory clinic patients from NeuroImage Clinical Find our top 10 tips for healthier living: Download our FREE guide. Have feedback or a topic you'd like us to cover? Let us know here. Episode transcripts are available here.
Transcript
Discussion (0)
Welcome to Zoe, Science and Nutrition, where world-leading scientists explain how their research can improve your health.
Today, we're discussing a topic that's close to my own heart, and as many of us know all too well, impacts millions of families around the world.
And that topic is dementia.
Nearly 7 million people in the US and almost 1 million in the UK
live with a form of dementia, like Alzheimer's disease.
And these numbers are a concern for many of us.
But today, we're not just discussing challenges.
We'll learn what steps to take to help prevent dementia.
We'll also hear how to recognize the early signs, and we'll find out if promising new Alzheimer's drugs are worth the hype. I'm delighted to have dementia expert
Professor Claire Steeves back on the podcast. Claire is a medical doctor, a professor of aging
and health, and head of the Department of Twin Research and Genetic Epidemiology at
King's College London. She's also been a frequent advisor to Zoe for many years now.
Claire, thank you for joining me again today. Thank you very much for having me.
Now, you may remember that we always like to start with a quick fire round of questions,
and Claire looks suddenly shocked because she's clearly forgotten about this, which we carefully
designed to make professors deeply uncomfortable.
And just to remind you, the rules are you can say yes or no, or if you absolutely have to, you can have a sentence to answer.
Are you willing to give it a go?
Yeah, I'll give it a go.
All right.
Is the brain the most complex structure in the known universe?
Yes, it is.
That's pretty cool.
Is dementia inevitable as part of the aging process? No. Are women more likely to get dementia than men? Yes.
If my parents have dementia, am I certain to get it as well? No. There are a bunch of new
Alzheimer's drugs. Are they going to stop the disease for most people? No. If I change what I eat, can I lower my risk of dementia?
Yes. And finally,
what's the most common misconception you often hear about dementia?
That there's nothing you can do about it. And that isn't true?
That isn't true, no. That isn't true if you have it, and that isn't true about preventing it to
happen. Well, that's a wonderfully positive place, actually, I think, to start this conversation. This is a topic that's very close to my own heart.
I think a lot of our listeners who've listened to the podcast very regularly will know that
my grandmother got Alzheimer's. It's an awful experience for the whole family. It was awful
for me, but particularly awful for my father. And not just during the period when my grandmother got this
and got very sick and actually died quite fast. Basically, ever since that, my father has lived
under the shadow, this fear, he was going to get Alzheimer's. And he's actually a lot older
now than my grandmother was when she got this. But I think even now he feels like he doesn't ever know,
is he just going to have another six months or 12 months of his brain working? And I think it's
had this profound impact on him. So I think I've definitely seen this firsthand and it's always
struck me as one of the diseases that I'm most scared of having, partly for the effect on myself
and partly for the way
that it would affect my family and the way that my family ends up thinking about me. It's a topic
that's close to my heart, is the way of saying this. I'm really excited to talk about it,
but also very excited that you sort of started there by saying there's some things you can do,
because I think I always assumed there was nothing you could do about this. This was
something that just came externally somehow as a roll of the dice,
a stroke of fate. And so I'd love to make sure we really get into today about how we can
lower our risk. But I'd love to start right at the beginning, Claire, and could you just explain
what exactly is dementia? So dementia is actually an umbrella term. So lots of different things
actually fit into that term of dementia. But if we want to sort
of classify it, it's a condition that involves cognitive function, so thinking and learning and
memory, more than one domain of it, which is altered in somebody, that that's altered to
such a degree that it then causes a problem in day-to-day living and that it's gradually
progressive over time and needs to have been around for longer
than a six-month period at the very least. And actually most people who get diagnosed with
dementia have probably had some symptoms going back for maybe years, unlike your grandmother,
maybe, who sounds like it was more rapid progression. And how is that what you're
describing different from normal aging? Because I think many people listen to this will say, I think, again, this is how I was brought up. And I know this is now more
contentious. I was brought up with this idea that, well, when you just start to get old,
then you fall apart, your body falls apart, your brain falls apart. So this is just literally the
normal process of aging. So there are changes that happen with age in most people, which we might
call normal aging. And the typical things are, for example, the brain looks different when you
look at it. There's some atrophy in older people. Which doesn't sound good. Nobody likes the word
atrophy. The older I get, the less excited I get about this idea of my body or my brain atrophy.
Yeah. So there is that, but of course, some of that might not be so detrimental. Then also,
there's some changes in processing speed in older adults generally. So the speed at which
things happen. When you say processing speed? Yeah. So the ability for the brain to get through
a problem or execute an action. So this is like do the crossword or what do you mean?
More simple than that, really. But basically any task you're looking at the crossword or what do you mean when you... Well, more simple than that, really.
But basically any task, you're looking at the time it takes to do that task.
One of the simplest is a reaction time task.
Say, for example, you're given a stimulus and you have to say when you see it.
Or a choice reaction time when you have to press one button when one stimulus comes and
another button when another stimulus comes.
Those are relatively simple tasks which measure the speed of processing.
So I'm thinking a bit like whack-a-mole. Is this what you're saying? Like something comes up and
you're hitting it on the head. Is that what you're saying? And as we get older, we get worse at this.
My son already feels that I've got slow reaction speed, so I don't want to know what I'll be like
when I'm 80. Yeah, no. So this is really important and it's really important, that sort of aging,
because that's why some older people, when they fall, or younger older people, they would fracture their wrist.
Whereas older older people might fracture their hip because they've got time to put out the hand.
So what you're saying is as you get older, things like just being able to protect yourself when you fall over by responding is slowing down.
And that's your brain which is slowing down.
It's slowing down in normal aging.
And I think that's something that we definitely see. Then there are dementias which are really quite different from that,
where there's progressive decline in other functions and different dementias have different
constellations of symptoms, but we don't always get it completely right. Sometimes actually what's
going on in the brain is not necessarily fully reflected in how people present.
And just before we get into that, I just want to make sure I'm this sort of difference between being health, like a normal
aging, if you like, and not, I think you're saying it is normal to sort of slow down a bit in terms
of the speed with which you respond. You can see changes. It sounds like you're saying like,
almost like if you're imaging the brain or something, you see this, but it's not normal
for you to not be able to think and interact and all the rest.
And where I'm getting this is, you know, I think everyone listening to this can think
of people that they know, relatives or friends who are very old, who are incredibly sharp,
exactly the same as they were many decades before.
Is that what you would think of as typically normal or is the reverse, which is that they
are the exception and your normal expectation should be that you sort of lose sort of your core personality and capability as you
reach old age? Really interesting questions. I mean, if somebody is changing in their function
and in particular, losing the ability to keep hold of, for example, short-term memory issues,
then that's a warning sign. The other thing that's a
warning sign is if they're not able to function in normal activities of daily life. So one of
the first things that might be affected might be, say, ability to manage finances or medication.
So if someone else has to come in and take over because things are going a bit wrong,
those are the sort of like early warning signs for most types of dementia.
And that's because you wouldn't consider that just the inevitable normal part of aging. Exactly. And the reason I'm asking this again
is because I feel that that's a bit of a shift from how I was brought up because you're saying,
I guess, quite a positive thing, I think, Claire, right? That actually, you know, the normal
expectation of aging is you can still manage your medication and your finances and your short-term
memory should still exist. Exactly. Exactly.
So tell us a bit about what happens with dementia. Why is it that this isn't the case for some
people? Why is it that this is this thing that so many people are worried may happen to them?
The most common presentation and the most common cause of dementia is Alzheimer's disease.
And Alzheimer's disease characteristically presents with a very gradual progression.
And generally the person is physically relatively well. And their gait, for example, their ability to, you know, their walking is not too slow and it's not too altered. And yet they ask maybe
repeated questions. They maybe don't catch hold of a full conversation. So they might ask the same
question again, or you might realize that actually you said something five minutes ago and they don't catch hold of a full conversation. So they might ask the same question again, or you might realize that actually you said something five minutes ago and they don't
recall it. So that early laying down of that episode in a sense of tape recorder for short
term items just isn't functioning very well. So this is when you were mentioning short term
memory attacking, this is like remembering things just in the last few minutes rather
than something that maybe happened to you 50 years ago.
And of course, be careful because not everybody with short-term memory loss has dementia.
Sometimes when the brain is really working on lots of other tasks, maybe in the subconscious,
whatever, maybe there's a stressor or there's something else happened, then obviously short-term
memory can be affected.
So it doesn't necessarily hold that short-term memory loss is early Alzheimer's disease.
But it certainly, if it's sort of like there and consistently there, definitely that's the sort of signal to say,
we ought to get this checked out, see what's happening.
What's going on? Why is this happening?
Most of the common dementias that are really brain focused, as it were, are because of
neurons dying, basically, in certain areas of the brain in particular.
And what are neurons?
Neurons are the nerve cells. They're dying probably from a combination of factors in our
genes and factors in our environment that contribute to that. And so they're dying a
lot more in these people than they would be doing in an equivalent person the same age who
is not having these dementia issues. Exactly. And one of the things we see when we look at those cells under the microscope is we see
inclusions of certain proteins. So certain proteins have aggregated together and are
either inside the cell or outside the cell. So there's something going wrong.
And that's not normal.
And that's not normal. This is one of the big conundrums of dementia is why that happens,
why some people are more resilient to those protein depositions in the brain and have relatively high degree of changes in the brain,
but that's not necessarily translating into how they present.
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And so just to make sure I've got this, you're saying that there are these proteins sort of
forming these clumps in these nerve cells in the brain, that that seems to be very related
to whether or not you get Alzheimer's, dementia in general, or Alzheimer's specifically?
So Alzheimer's specifically has certain types of protein inclusions and other more rare forms of
dementia, rarer forms of dementia have different sorts of
protein inclusions. But ultimately, a lot of these neurodegenerative diseases that we call
neurodegenerative types of dementia, they have protein depositions within the brain,
in different parts of the brain, different patterns, different exact proteins as well.
But basically, there's a lot of stuff that isn't in your brain when you're 21
years old that is later and there's a real
link. There's a relationship but it's not a completely 100% link. Complicated like I think
one of the things I've learned on this podcast that most things are. So it's interesting when
I hear that I naturally think about these analogies that a lot of guests have talked about
with cardiovascular disease and things being sort of laid down in your arteries, you know, mainly
based on poor diet over decades building up and eventually that leading to like these
pipes being blocked or something breaking free and into the heart.
Is that a terrible analogy or is there something, is there some similarity with what you're
describing with things sort of, you know, ending up being laid down in our brain that
are not being cleared
away? Well, so yes, I think that's really interesting. Yes, the clearing away bit is
absolutely the case. But the difference in a way between the cardiovascular disease,
as you mentioned, is that the focus is really on the arteries and the blood vessel lining.
Whereas in dementias, the focus is on the actual neuron cells and the cells beside
the neurons that help keep them healthy.
So the microglia or the other cells that are around supporting those neurons to function.
Is everyone having these proteins laid down in their brain, but normally we're unable
to clear them away?
Do we understand, I guess, what's going on here?
And therefore, does that help us to understand, as we're going to start to talk more about
what we might do, why the things that help do help? You know our cells very complex organisms
or you know complex structures that are constantly rebuilding the structures within the cells but
also things the ways in which they communicate outside that cell. So what's happening when you
get these proteins deposited is that there's a problem with the
clearance, either the manufacture or the clearance of those proteins.
We had a really interesting podcast with a professor called Matt Walker talking about
sleep quite a long time ago.
And I remember one of the things that he talked about was his idea that when you sleep, you
know, again, I was brought up to think that nothing happened when you slept.
You just had to sleep for some reason.
And he was saying, no, actually, we now know your brain's very active. And that one of the things that's going
on is somehow a sort of clear up of your brain. Is that in any way related to this?
Yeah, I think there is.
Have I just put one and one together and made seven?
Yeah, no, there is evidence that the clearance of protein also just simply the way that the
fluid system around the brain, the CSF, the cerebrospinal fluid, the way that the fluid system around the brain, the CSF, the cerebral spinal fluid, the way that flows
around the brain is affected by sleep. And then probably there's something that's happening much
more deep within the brain tissue, which affects the clearance of these proteins. So I think there
is a relationship between sleep. I would love to shift maybe to one step away from the detail of
what's going into the brain and more about people listening to this trying to understand, okay, what are my risks? So are some people more at risk of dementia than others?
That's true. And we know that genetic factors are important in the development of dementia.
And they're most important in the early onset dementias. So people who have developed dementia
in their 50s or 60s, there's some stronger genetic influences on those.
It doesn't mean that they're definitely going to be.
I was going to say, does that mean that if I have bad genes, I'm doomed to get dementia?
No, it doesn't.
And of course, there's an interaction between those genes and the environment, which might be very important.
So one of the most talked about, because it's actually important gene is APOE of which all of us
have two there's an APOE4 is associated with increased risk of dementia and so if you have
two of those you're actually much greater risk of having dementia it doesn't mean it's definite
and how bad like just to help us understand like if you have these two what you call them E4
genes it's about eight times greater risk okay Okay. So that sounds pretty bad. And how many people
will have two of these? Oh, not very many. So I think it's, you see about 25% of the population
have one. So there'll be a couple of percent of people, like two or 3% people listening to this,
who could have both. And their risk really would be much more because eight times higher on something
that's relatively common sounds like that's a very high risk. Yeah. So that, and that's one of the reasons.
But you're saying they're not doomed to get this if they have these two genes?
No, absolutely not. Yeah. Well, we don't actually know completely why ApoE4 confers the risk,
but it's something to do with the way that our brain cells use fats in the body. And it's
probably influenced by things in our diet and maybe medications that
we take. So that's why you can still increase your resilience, even if you have two of those
ApoE4, Alex. So could you talk a bit more maybe about the thing? Because I think the thing about
genes is always it's so depressing, right? Like you have your genes and you're sort of stuck with
them. And I think one of the joys for me about this journey with Zoe is realizing that almost everything that I've been taught, that basically we were just sort
of this victim of our genes, that was going to define our health, turns out not to be very true.
And that actually the way that we live our life is much more important in terms of certainly most
aspects of our health. Though, as I keep telling my son, it seems like our genes are still quite
important for your height. And since I'm rather short, he's rather disappointed that he's not going to be six foot five.
But it seems that in general, actually, the height is a bit of the exception.
And in general, our health, we have much more control.
What are the other things that mean that people are at higher risk of dementia?
Well, if we start like early on in life, really important, because ultimately all of our cells in our body are aging right from the beginning when we're after we've conceived so you know even things in utero can be really important
for later life development this is while i'm a while i'm a fetus so so if you're any pregnant
mums out there you know actually you know what you're doing is preparing your child for the
whole of their life so it's really important to to be thinking about that and making sure that
you're giving them i always think it's also terrible as we both have children. There's enough pressure I always feel on
pregnant mothers. It's pretty tough, I think. And then now you're just about to layer on some more,
but go on. I know this is a science. Tell us the science.
But also society needs to do that as well. I mean, that's really a key message for society.
We need to really look after pregnant mums.
That seems unobvious. What happens to me as a fetus effect?
What are the things that will change my risk of dementia?
It's about cognitive reserve. So that's the kind of maximum cognitive ability that we might have,
not just in terms of sort of intellectual ability, but also psychological state as well.
So the reason why that's really important for dementia is that dementia is something whereby our functions are interfering with daily life.
And obviously, if we start off with really high functioning, then we get to that point
much later in any disease process.
So you can put off significantly the time at which you fall below that threshold of
being able to function in daily life much, much later.
Could you explain a bit more what you're describing? What is it that some people
are getting and other people are not?
We can think about it from multiple different ways. We can think about it in terms of the
stimulation that a child is being given through education, through parental influence. We can
think about it psychologically around that development that's happening in early childhood.
But we can also think about it about nutrition, as we talked about before, I'm sure we'll talk about again. Nutrition starts in
neutral. There are factors which affect how the brain actually develops right from the beginning.
And then we can then go even further than that and talk about things like smoking and alcohol,
which have significant effects on the brain development of children.
I think I'm understanding better now. I think you're saying right back, even when you're as a fetus, depending upon the nutrition
that your mother is having, that's going to affect the way your brain is developed.
Then after you're born, continuing the food that you eat as a child, but also you're saying
the stimulation you get.
I'd love for you to talk a little bit more about that.
You're saying that somehow the way that the world is interacting with you is going to
give me a, I guess, like a healthier and more robust brain that is actually going to have an effect on whether I get dementia 70 or 80 years later, is that?
You might still get dementia, but the chances are that the more that we can do to increase brain reserve, the later.
And brain reserve is like the capacity of your brain to do that?
Yes, exactly. Exactly exactly exactly so and humans are
incredibly varied in terms of their uh you know cognitive functioning and so if you have a high
cognitive functioning obviously you've got further to fall it's a bit like saying like my tank is
it's a bit i'm thinking about now a bit like a car so my you know like the fuel in the car is
your reserve and when it goes below a certain point, you know, the car stops working. And is that your analogy a bit here with the brain that you're
saying you might have dementia, so your reserve is being reduced, but because it's very capable,
you can go a lot longer before it stops working. Is that?
And so actually the processes might still be happening within that brain,
but actually then it doesn't play out in life. And this is really important because obviously that investment that we give or we can give if we have the capability to give
it, that investment will last out and make a difference later on.
Got it. Because it might be that, okay, yes, you are starting to have dementia and
if you became a hundred, it would be really affecting you. But actually if you die at
85 of a heart attack or something, then actually your brain was fine. Is that what we're describing? Could you talk a little bit more therefore about this? I think everyone listening
to this is probably thinking, okay, how do I make sure that maybe starting with perhaps thinking
about their children or their grandchildren, how do they make sure their reserves are good?
And then also perhaps what's happening later. But right now, I think you're talking about like
earlier life. What is it that gives you these higher reserves but you know before you're 18 i
guess yeah so so i think we've already talked about diet we've talked about intellectual
stimulation sort of also that stability psychological balance which is really important
mental health so mental health is linked to mental health mental health is really interesting because
good mental health sets you up for a cascade of of good things then happening to you late in life, which then give you more opportunity, more capability to take on these opportunities to then improve your brain reserve and stimulate your brain.
Whereas problematic mental health then can lead to difficulties in the capability or the opportunities and motivations to take on these things that are going to then help your future brain reserve. So talking about some of those, I mean, the key
things are around social stimulation, things like physical fitness. I think I talked about that a
lot in the last podcast that we know that physical fitness is really beneficial for brain health.
And of course, we can then put in some physical reserve as well and habits of daily life that then increase our physical
activity and continue it going through midlife, which is going to be good for vascular health,
but it's also really good for brain health. So if I am doing more physical activity,
what does that mean for my brain? The habit is good. It's the daily regular physical activity, which doesn't need to
entail exercise. It's the reduction, even in sedentary time, that we see has an effect,
not just on dementias, but actually on brain aging as well.
And so that just means my brain is effectively younger.
Yeah, it increases that reserve.
That description you gave at the beginning, which a bit depressing about like not being able to respond to anything or really know what's going on
like if i'm regularly active when i'm 70 or 80 or 90 or 100 when some of my mental clarity is just
gonna be a lot better is that we're saying because i've been consistently active active yeah that's
right so active but not just in terms of physical activity, active in terms of social activity, and all those things, those all contribute to brain reserve.
But then there's also things that alter brain reserve and make it more tricky for us to
maintain those cognitive functions. I'm not talking about the proteinopathies now,
I'm talking about the reserve capacity. And of course, that's where interaction with other body systems is really
important. So we know that there's a real strong interaction between cardiobiotic health and brain
health. We know that there's a really strong interaction between, say, for example, our
hearing ability, our sensory ability and brain health. Then likewise, infections can tip the
balance of brain health, but chronic inflammation can also
affect how our brain's resilient to those changes which might happen in that balance between
proteins being set down or not. So before we start to talk about prevention, which I know
everyone listening is like, that's really interesting. It all sounds quite scary. Let's
talk about everything we can do. I'd love to talk a little bit about symptoms and what the status of treatment
is at the moment first. So could you tell me if someone's thinking about the symptoms that they
might notice in themselves or a loved one that would sort of probably trigger this thing that
I think we should maybe go and talk to a doctor, what should they be looking for?
So really, it's about a change in cognitive function. And different
dementias have different patterns. But as I've talked about, we've got things like Alzheimer's
dementia, which starts with short-term memory loss. There's other forms of dementia that can
start with personality change. Again, further forms of dementia, actually, the first presentation is
around falling over and maybe difficulty with the blood pressure regulation,
sleep even, sometimes can be the very earliest presentations of some forms of dementia.
When does it start to become common enough that you might be sort of on the alert for it? Because
again, I think many people listening are feeling like, oh, as people get old, I'm expecting this
to happen and I'm sort of I've become very vigilant about it.
Good question. So most people that are referred to my memory clinic are probably in their 70s.
It's quite rare to see people in their 40s being referred to me. If people do have these problems happening in their 40s, then they're more likely to go and see a neurologist for an examination.
But yes, so those are the more common ages.
The 70s is sort of when you're tending, in fact, to see them in your clinic. And so what are the
treatment options? And I think I've definitely seen there's been a lot of press about new drugs
starting to come on board. What's the situation today as a doctor thinking about treatment for
somebody who comes in and who you do diagnose? Yeah, so it's really exciting that we now have some new drugs because we've been waiting actually
about 20 years for some new changes in drugs. What these drugs are doing actually, it's a really
amazing proof of concept that these medications, they're basically antibody-based medications
that are sticking to the proteins and getting rid of them, clearing those proteins that we
talked about at the beginning. And we know, yeah, yeah. We've known for some time actually that we can do this and take them out,
for example, from animal studies. It's only really been in the last year that we've
had evidence that taking out those proteins in the case of Alzheimer's disease actually
has an effect on human progression of the disease. But the issue is that actually when we do that,
the level of gain is actually quite modest.
It doesn't...
You mean when someone takes these drugs?
Yeah, so we can take the proteins out of the brain.
Right.
But it doesn't necessarily mean that we've significantly
affected their cognition and their function.
We hear about all sorts of wonder drugs, right,
that suddenly solve everything.
And then you hear about other drugs where people say, oh, well, it doesn't really, you
know, ultimately didn't really make much of a difference.
How excited are you about these drugs?
Well, I'm excited in principle.
I'm excited in principle because we've shown a proof of principle that this works in humans
and therefore it could be developed on.
But the issues are this, that first of all, the gain over a year is only a few points
on a cognitive measure.
So it doesn't mean that the person then doesn't have dementia. It's just that their dementia is-
They're not cured.
They're not cured. They probably are. The process is slowed though. That's the game changer. The
process is slowed. Whereas before we've been able to give drugs that manage symptoms, but ultimately
the process isn't
slowed. So that's the really exciting game change. How much slowing down are they delivering?
So at the moment, not very much slowing down. But we haven't talked about the main problem with it.
The main problem is that actually there's increased risks. So as you're taking away
the proteins from the brain, you're also increasing the risk of edema happening in
the brain. So that's
swelling in the brain, which can be quite catastrophic. If the brain swells a little
bit, there's inside a fixed space. There's an increased risk of hemorrhage, little micro
hemorrhages within the brain. And so people that are having these drugs, there's bleeding. Yeah.
So the people that are having these medications have to have a scan every month.
And so what does that mean in reality there? Because those sound like quite scary side effects.
Are they very rare or are they quite common?
It means that actually the balance of risks and benefits is not totally clear ultimately.
So as a doctor, does that mean you're not necessarily just saying to everybody who
comes in, you should take this drug?
They're not approved in the UK for that reason.
And they have been approved in the States?
They've been approved in the States, yeah.
Okay. And normally when that happens, that tells you it's a bit on the edge. Is that what you're saying about the balance of benefits?
I think the benefit and risk is definitely on the edge if you had all the resources available.
And then you've got to think, well, actually, how are we logistically going to get
everybody to be able to have scans every month? And what knock-on effect is that going to be on
being able to get scans for cancer or scans for other things? So there's a resource issue as well. So if the gain was massive,
then you might say, well, that was worth that risk personally, and also as a healthcare system.
And how many extra years of sort of well-functioning brain am I going to get?
Well, we don't really know yet as well, because we've only had a couple of years of lead time.
Got it. But if you're going to guess, are you talking about like a
year or are you talking about like an extra decade?
Yeah, it's not an extra decade.
This is not the sort of transformational drug that means we feel like we've conquered dementia.
No, but it is a transformational drug because it's showing us the proof of the idea that it
is possible to take away the proteins from the brain.
So all we need to do is do that more safely and we need to try doing it in different proteins
because it may not be the proteins that we've gone after.
So you're saying it's like proof that this approach can work and then maybe this
generation of drugs are not ideal but you're sounding quite optimistic that maybe this
means there's a path to a next generation. There's a path to a next generation. Within
the next five years,
we need to really get our services in order so that we can be thinking about delivering these things
because it's coming.
So that's very exciting.
So if you're living with maybe a family member
who's having this today,
then it may not be as positive as you'd like.
But if you're thinking about what might be happening
in a decade to a family member or yourself,
then actually it sounds
like this is quite positive, which is exciting. The science is really moving forward. And I know
you're quite careful, Claire. So the fact you're quite positive here, it makes me feel that you're
feeling actually really quite enthusiastic about the potential in the longer term.
Yes, that's right.
Well, look, I think I would love to switch to the stuff that doesn't involve taking a drug that
might make your brain explode, because I can understand why that might not be ideal. Let's start with me. So, you know,
I'm someone in my late forties. I really want to make sure that I don't have dementia.
Give me the advice. If I was walking into your clinic, tell me what you would be saying that
I should be doing in order to try and make sure I never had to come back to your clinic in 20 years.
So actually what I realistically say to patients is, it's about getting as many different colors
of fruit and vegetables into your diet as possible and making sure that you're getting good
plant-based fats into the diet. Because the brain is hugely metabolically active. It needs a lot of
nutrients. And we know that a wide variety of plant-based nutrients is really important for brain health.
And I talk about colors because actually there's evidence that flavonoids are really key phytonutrients for brain development.
It may be because you're changing the microbiome because there's such a thing as a gut-brain axis.
So we think that there's a very strong relationship between what's going on in our gut. Lots of plants with lots of fiber, lots of different colors, and then you said lots of healthy fats, which means a lot of
plant-based fats. I think you were mentioning nuts. We often talk about things like avocados
right at Zoe. These are the sorts of things that you're talking about. Olive oil, I guess.
That's right. There's quite a number of studies now showing Mediterranean diet. It helps to improve cognitive health.
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So that there is real evidence that the Mediterranean, like changing this,
this isn't just like something, because, you know, doctors always say you should eat more healthily, right? And everyone's like, yeah, yeah, yeah. There's real scientific studies
that show that switching to this Mediterranean diet, which is high in the things you're describing
and low in like the more traditional Western diet of meats and like white bread and all the
rest of it, like that actually has an effect on dementia.
Yeah. And then you, so you just mentioned the other thing, which is meats and white bread. Yeah.
So we know that there's a relationship between vascular health and brain health.
And vascular health means?
The blood vessels within your body and your heart. That's because one of the other types
of dementia we haven't really talked about is a vascular dementia. And often there's a combination actually of vascular factors
that then bring on those other processes like Alzheimer's. So if you're eating a diet that's
good for your heart, basically, and that's also going to be good for your brain. Yeah, it's going
to be good for your brain and it's going to put backwards the balance of things that are going on
in your brain that might relate to Alzheimer's. There is real scientific evidence that this shift in diet really can reduce your risk of dementia?
So for example, in the Mediterranean diet, there've been really large randomized control
trials that were conducted over a year period in five different countries in Europe. And when
they compared the group that were randomized to the Mediterranean diet against the control group, they didn't find very significant differences.
If you manage to change your diet in a sustainable way, it really can reduce your risk of dementia.
But you have to stick at it.
You have to stick at it.
You can't just do it for a few months.
And the trouble is, that's difficult.
What else would you tell somebody?
So the second thing is about physical activity. So, you know, I do tell all my patients to make sure they're physically active at least
three times a week and they're going out every day.
These are really important things to do.
And that can help preserve your physical function as well.
And your cardiovascular function.
It's probably the biggest thing that you can do to help your overall fitness.
And when you say physical activity, when you think about dementia, what's really required? Because we talk to a very wide range of people
who vary between, if you even get up from your chair for two minutes, you've done everything
amazing to, if you're not doing a massive workout four times a week, then you're sort of dooming
yourself. But what should people be
thinking like, this is what I really need to make sure that I'm building in my life.
So to improve your cognitive health, you need to do more exercise than you're doing now.
Okay.
Okay. Up to a point, unless you're like an Olympic athlete.
I'm not an Olympic athlete.
And that's the key thing. Okay. And this is again about the difference between scientific proof
and practical advice.
So the reason why there's this debate between scientists about what is the dose required
of exercise is because to show a change over a short period, you have to have a big enough dose
to be able to detect that effect. Whereas if we look at really big population studies,
we can see effects
even with minimal levels of exercise and it's fairly linear. So even being more up and about,
less sedentary time makes a difference, but then you can still make more difference by putting
every egg on. So whatever you're doing, if you go up by a third, you'll be improving yourself.
And is there any particular sorts of exercises you're thinking about this?
So probably the most evidence is around resistance training exercise for overall frailty and so on.
Then, you know, for cardiovascular fitness, there's aerobic exercise.
I'm one of your patients. I'm not very physically active. What would you be telling me that I should
do that can really make a difference? Walking.
Walking.
I think you need to get out and do walking 45 minutes, at least three times a week.
And that will really make a difference.
If I'm not doing that, that will really make a difference.
So that, I think, again, is amazing.
I think you're like, well, it seems sort of obvious.
But again, I think many people listening to this grew up with the assumption there is
nothing you can do about it.
It's just literally a consequence of getting older.
And you're saying, actually, if you went for a walk three times a week,
compared to just not doing that,
you're going to make a really significant reduction in risk.
It is rather extraordinary and does suggest that, you know,
our current way we live our life is not very well optimized for avoiding this,
if that is almost like your starting advice to people.
One thing I haven't really talked about ever before with you is teeth, the importance of
teeth. In the UK population, about 35% of older adults have periodontal disease,
inflammation of their gums. And we know there's a quite a strong tight relationship between
periodontal disease and cognitive disease. And you believe this is true? Because we had
somebody on,
just if anyone's interested, a few weeks ago, we'll put a link, who was a dental researcher saying this. But I was curious, because obviously, if you're a dentist, you're going to be convinced
that the teeth are important. Oh, no, no, I really think it's really true.
And you're not a dentist, so therefore you're unbiased on this. This is really true, isn't it?
It's really true. There is a vicious cycle, though, obviously, because as you start to get
dementia, it's more difficult to look after your teeth. And also we know that looking after teeth,
actually diet is really important in looking after teeth. So teeth are much more healthy
if you have a good varied diet that we've been describing and less sugar and so on and so forth.
But actually, this is a very common inflammatory load, which is tickling the systemic...
Which is amazing. I just heard this literally a few weeks ago. I was shocked to hear this.
And actually, when I see my patients in clinic, the thing that's related to that cognitive reserve
we were talking about, i.e. the difference between what's in their brain and how they're actually
living, how they actually present, the people that have the bad teeth will be doing badly. The people that have the good teeth
will be doing well. You would be saying if someone is having problems with their teeth,
like absolutely going to get it fixed right away because that really could be a big risk factor.
What else could people do? And I feel like you mentioned a little bit about intellectual
stimulation and social stimulation. Is there anything you can do with your is this all fake or um that you that
you know doing things with the brain can help prevent dementia or is there something real about
well no i think the thing is it's about that cognitive reserve as well i again okay so i don't
think we mustn't be getting the idea that if you have got a managerial high paid job or whatever,
you're doing lots of intellectual activity that you're immune to dementia. Everybody can get
dementia. It's just that you will present later. So I'm in my late forties. I'm thinking about
this right now. Is there anything that I could be doing with my brain over the next 20 years that
will change my risk factor.
There's only thing I can do there that is actually going to shift it. Probably one of the most complicated things that we do in our brain is to really interact
socially.
And so that's a brain workout.
So that is better than a crossword puzzle.
It's better than a crossword puzzle.
I think much more fun as well.
So it's good news.
I know not everybody feels that way.
Some people who are more introverted feel this is hard work but but it doesn't necessarily mean that some of these brain
games aren't helpful i think the thing is that what brain gains tend to do is they tend to make
you better at that brain game they don't necessarily you need to have lots of different
brain games you'd have to have lots of different brain games okay so it's not that bad but actually
you're saying social interaction is so complicated for our brain that's really exciting which also i guess ties into why loneliness is another reason why loneliness
is not good for us yeah and then physical activity certain physical activities are really taxing for
the brain aren't they in terms of activity so if you're like cycling in london that's for sure
quite taxing yes i always think that it might be lowering your life expectancy for other reasons
yes um yeah but but there are other sort of forms about physical activity like dancing whatever I always think that it might be lowering your life expectancy for other reasons. Yes. Yeah.
But there are other sort of forms of physical activity like dancing or whatever, which is quite a good cognitive task.
It's interesting what you're saying because your brain is having to think quite a lot
as well.
Basically, what you're saying is using your brain, making it have to do something that
is actually going to build what you're calling this reserve, which is basically meaning you're
less likely to suffer from it.
Your tank.
What's in the tank?
Yeah.
We had a lot of questions from our listeners about the link between blood sugar levels
and the risk of dementia.
And in fact, some of them said that they've been hearing people refer to Alzheimer's disease
as type 3 diabetes.
In other words, that because we've seen this huge rise in number of people with type 2
diabetes because of our diets and all of this high blood sugar, that actually this was
potentially a risk that was increasing the risk of Alzheimer's. Is this true or another one of
these pseudoscience? No, no, no. We know that having diabetes increases the risk of dementia.
Probably of all types, actually. Significantly.
Significantly. Yeah, significantly. And then you do have to be a bit careful if you have dementia and you have diabetes, because it's not quite as simple
as having really tight control of your diabetes in that case, because we know the brain in the
context of dementia, you know, does need blood sugar and actually low blood sugars is really
dangerous. This is once you have the dementia, but this is what you're saying, or once you have the diabetes.
If you're early in life, and we're talking about the preventative stage,
everything you can do to help your blood sugars be normal is better. So over control probably
isn't very good for the brain, but ultimately the bigger thing is around-
Eating too little is not a good thing. Is this what you're saying?
Well, no, it's not about eating too little because, of course, the liver produces the
glucose and so on. So, having a really low blood sugar is not good for the brain, for sure.
But the main problem is around pre-diabetes or diabetes.
This is real. This rise in pre-diabetes and diabetes is a real contributory factor to-
Is a real contributory factor to dementia. Is a real contributory factor, yeah. And then presumably that means if you can reverse the pre-diabetes or suddenly control
the type 2 so it doesn't continue to get worse, that would lower your risk of getting dementia?
That would lower your risk of getting dementia.
Brilliant.
We had one other question from the community that I definitely want to ask because it came
up quite a bit.
Should women be taking HRT in order to reduce their risk
of dementia as they go through menopause? That's a very interesting and controversial
question. There's quite a few studies that you may be aware of that have happened in the last
year, which have produced conflicting evidence on this. I'm not aware of them, but I can tell
that some of our listeners are, and they of course, therefore, probably sitting here trying
to decode that yeah yeah what do those
things say what's your reading of of what that means as best we can understand with the latest
science as it is today hrt is not going to be a cure-all that it probably will contribute to
reserves but also it really helps in active day-to-day cognitive function of people going
through the menopause. So that's
probably where it's really important to use it because people who are going through the menopause
often have problems with brain function, which can be really debilitating.
I've heard some extraordinary and awful stories. And I've talked about this before that
I've been shocked because it's not something when I was growing up that my mother never talked about,
like nobody I knew talked about.
And so as I started to hear some of these stories more recently,
it's really extraordinary to me how some people have such a tough time for years.
The reason to take HRT is to help that, which is really important.
And it can really help brain function through this.
Yeah, that's right.
Then dementia later on, I don't think that's a reason then worrying you know really dementia later on i don't think
that's a reason to take hrt got it and you're saying it and it's there's at this point there
isn't data that says this has this profound impact later on that makes you shift no in fact
there's studies that go both ways on this okay so i don't think we should be taking hrt because of
future risk of dementia at the moment, unless, you know,
let's see what happens. Because actually the longitudinal studies, you know, bear in mind
that people have only been using HRT for the last 30 years or so. So, you know, and who took it and
who didn't take it is confounded by other things. So it's a space that is uncertain. But what's not
uncertain is that many women who have problems
with cognition during the menopause benefit from HRT. One of the things I've been really struck
through this OE journey over the last seven years is how much in science we don't know the answer
to and how much is this constantly ongoing investigation. I think one of the ways I always
judge whether you're talking to a really
good scientist is their caution in lots of areas where they say, I think, as you just have done,
Claire, like the evidence isn't really there yet. And there's lots more studies. And, you know,
I think one of the joys of science is that, however, we are making progress. We definitely
do know more than we did 10 years ago. And I think this is just, I think this is a lovely
example of that, where I think you're
saying it's not yet clear. It sounds like it could be. You might be sitting here in five years' time
saying, actually, I'm looking at all the data, and I do believe that this can really be beneficial
long-term against dementia, but that actually at this point, the data isn't clear. And I feel that
happens a lot in science to do with the human body because it's
so complicated. I have so many more questions, but I think that we have run out of time.
I'm going to try and do a playback. This is a new topic for us and quite complicated one. So
please correct me if I get any of this wrong. Is that all right? I think what you described to
start with about what is dementia is
really contrasting it with sort of normal, healthy brain behavior. And so, for example,
you said the warning signs are things like starting to lose your short-term memory,
to not remember something maybe from five minutes before, or not be able to function with something
that seems like normal life, but maybe is a bit complicated, like managing your finances or making sure you're doing your medication properly.
And that we have to bear in mind, however, that our brains do age as well, even though that's
hidden to us. And so I think you're saying like, you know, if I looked inside my brain,
you said this horrible word, atrophies, which is a pretty depressing idea. But also, for example,
you can see that your reaction speed just naturally gets slower. So the point is it's like outside of that, but generally this is a slow progression. So unlike
a lot of diseases, it's sort of like bit by bit rather than suddenly presenting with this very
clear different function than you had last week. But it's caused by nerve cells in our brain dying,
this is what's causing the problem, but that we can see the cause over time with these
sort of proteins being stuck in these nerve cells. And that indeed, you're quite excited because
there are some new drugs coming that are clearing these proteins away. And although this current
generation, you feel like the balance between benefit and harm is not that great, you're quite
excited about where it might go in the future. Then we talked a bit about why you might get dementia. There are some specific genes.
So I think you said something like an E4 gene. Is that right? If you had two of those,
then you have not won the lottery. But even then, it's not guaranteed that you're going to get this.
So that in all cases, actually, there's a lot through your lifestyle that you can do.
And I think the way that you helped me to understand it is to think about your brain has this brain reserve.
It's not a word I'd ever heard before, which is sort of like this tank that you're filling
up with all this capacity.
And that starts actually, even when you're a fetus.
So we can build the brain reserves of unborn children by the food that their mother is
eating.
But then as they're born, how much
stimulation they have, their own food, all the rest of it. But you can keep building this reserve
as we're older. And so even if we might start to be getting this dementia, if your reserve is big,
actually you can live much longer in a healthy way. And then I think in terms of the things
that we can do, I think the number one thing you talked about was diet. And I thought it
was interesting. You were very strong about how switching diet to something that looks like a diet that is very plant-based with lots of different sorts of plants.
You were describing sort of eat the rainbow, things with a lot of fiber in them, lots of healthy plant fats.
I think you mentioned nuts, for example, specifically.
That's sort of the number one thing.
I think the number two thing you said is physical activity. I think you made this great quote, to improve your health, you need
to do more than you're doing today. So almost whatever you're doing, if you want to reduce
further your risk of dementia, but interestingly, you were saying that actually for most people,
just like going out every day, going for a walk, if you're not already doing that,
we'll have a profound reduction. And Claire is nodding her head hard at this point,
if you're listening on audio,ound reduction in your risk of dementia. Look after your teeth
and then intellectual stimulation, particularly just meaning with other people. So social
interaction actually being almost the best brain training you can do. And you said there are all
these different brain training tools and that's fine, but actually they need to be changed all
the time. But actually just sort of interacting with other people a lot probably is pushing your brain more than anywhere
else. And then I think finally we said diabetes is a risk. So you want to avoid diabetes or you
want to have it under control if you have type 2 diabetes. And HRT, the evidence isn't there as a
cure for dementia in the long term, but there is great evidence about how it improves your cognitive
function during perimenopause and menopause, and that's a big deal. So you should be embracing it
if you have those issues. How did I do? Yeah, really good. Can I add two little-
Of course. A couple of little things. So one is around dementia. When we were talking about it,
we were mainly talking about the biggest form of the most common cause of dementia,
which is Alzheimer's. But remember, it's an umbrella term. And so there are lots of about 25 different other types of
dementia and they do present differently. So ultimately that key is, is there something
changing and changing consistently over time in the functioning of the mental capacity of that
person? And that's when to seek help so don't not seek
help just because short-term memory isn't the issue and then the other thing that we we we
didn't talk about today but is really important is sensory inputs yeah so ultimately in the same
way that social sense social interaction is really important our interaction with the rest of the
world sensorily so we we know now that actually hearing aids,
if you've got hearing impairment, delay the presentation of dementia.
That's amazing.
I think I remember you talking about this in our conversation a long time ago.
You're saying if you get a hearing aid,
that actually reduces the point at which you get dementia.
Exactly.
So don't delay on doing those things.
And I think some people think, oh, I don't really want to hear.
Actually, it does make a difference. So do get those hearing aids, even if it's a pain to start
wearing them at the beginning. Because you're like, that is as good as going for a walk. I'm
not saying it's instead of, but I mean, we're talking about it has the same sort of impact as
you're describing with going for a walk. Actually, I don't know whether I can quantify
the difference. Yeah, I think it's probably, yeah, exactly. Yeah, it's a big deal. Amazing.
Well, I think the hearing aid providers around the world are going to have a busy week, I think it's significant. Yeah, exactly. This is like a big deal. Yeah, it's a big deal. Amazing. Well, I think the hearing aid providers around the world are going to have a busy week, I
think, after that.
Claire, thank you so much for unpacking that.
And I think it was really clear this is a complex topic.
And I think having done that first overview, I am sure we'd love to come back and dive
into some of that again in the future.
Thank you very much.
Brilliant.
Thank you.
Thank you for joining me on Zoe Science and Nutrition today.
It was incredible to learn from Claire just how much we can reduce the risk of dementia,
including the critical role of eating the right food for your body.
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Simply go to zoe.com slash podcast,
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