StarTalk Radio - Beating Time: Dodging the Number One Killer with Dr. Lipi Roy
Episode Date: November 10, 2023Could we eliminate the number one cause of death? Neil deGrasse Tyson and co-hosts Chuck Nice and Gary O’Reilly go to medical school to learn about heart health, the impacts of COVID, and the cardio...vascular disease epidemic with physician Dr. Lipi Roy.NOTE: StarTalk+ Patrons can listen to this entire episode commercial-free here: https://startalkmedia.com/show/beating-time-dodging-the-number-one-killer-with-dr-lipi-roy/Thanks to our Patrons Kaleda Davis, Saúl Franco, Jake Egli, Josh Rolstad, Roxanne Landin, jamie brutnell, and Bailey Manasco for supporting us this week.Photo Credit: Nephron, CC BY-SA 3.0, via Wikimedia Commons Subscribe to SiriusXM Podcasts+ on Apple Podcasts to listen to new episodes ad-free and a whole week early.
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Coming up next on StarTalk Special Edition, all about heart health.
What are we doing right?
What are we doing wrong as a nation, as the world?
Turns out cardiovascular disease is the number one killer of human beings in the world today.
What can we do about it?
What are the misconceptions?
How does it all relate to COVID and the vaccines given to prevent us from dying and keep us out of the hospital.
How do they all relate? Coming up next on StarTalk.
Welcome to StarTalk, your place in the universe where science and pop culture collide.
StarTalk begins right now.
StarTalk begins right now.
This is StarTalk Special Edition.
I've got with me my two favorite co-hosts in the universe.
Chuck Nice. Chuck, how you doing, man?
What's happening, Neil?
All right. Long-time co-host, comedian, and actor.
I got Gary O'Reilly, former soccer pro, sports commentator,
and we borrow him for this because his life and heart is in soccer but thank you Gary for giving of yourself to us. Oh my pleasure thank you Neil. And where are you
going to take us here? Well recently earlier this year 2023 we did an explainer about the
DeMar Hamlin NFL cardiac emergency that he had on field. And our audience came back with a variety of thoughts and ideas
as to what they thought had happened.
And it made us realise, because we have a little huddle, as you do,
and you know what, we maybe don't know as much about the heart,
one of the most vital organs in the body, as we think we should.
It is the number one killer in the USA.
And I think really we needed someone to shed a light on that.
And so we brought back one of our most favorite medical doctors, Dr. Lippy Roy, MD.
So Neil, would you like to introduce our guest?
Sure, sure.
Lippy Roy, great to see you again.
And we've met on several occasions, not only with StarTalk.
So delighted to have you
shed some light.
Internal medical physician,
public health professional
with the Mayor's Office of Criminal Justice.
Now, whose mayor is that?
So Mock J, the New York City Mayor's Office
of Criminal Justice,
I believe it started during
the de Blasio administration.
Gotcha. So New York City Mayor's Office of Criminal Justice, I believe it was started during the de Blasio administration. Gotcha.
So New York City Mayor's Office.
And you're a host of a YouTube show, Health, Humor, and Harmony.
I love the alliteration.
Thank you.
And you're an often sought after commentator, and we know why.
MSNBC, NBC News, and Forbes.
You write for Forbes.
And so welcome back to StarTalk.
Thank you, Neil. I'm so happy to be here. And this is a topic that matters so deeply to me,
to my people. I'm the daughter of Indian immigrants. I'm wearing my red.
So we're told that there's certain foods out there that are heart healthy.
And there are heart healthy habits we can undergo heart healthy
lifestyles and even so issues related to our heart is the number one killer of americans
so so what what are we not doing what what's missing what what or maybe we are doing the right things. And who was it that said,
eat well, stay fit and die anyway? Is this what's going to happen regardless?
Well, that is the pessimistic approach. But no, it's actually, Neil, we have studies,
we have data showing that if people adopted these healthier lifestyles, or in other words,
reduce their risk factors for heart disease,
they will live longer. At least they won't die of heart disease. And to Gary's point earlier,
the leading cause of death globally is cardiovascular diseases. So just a reminder
that cardiovascular diseases includes a group of illnesses, including coronary artery disease,
cerebral vascular diseases, peripheral artery disease, which supplies the arms and the legs,
rheumatic heart disease. But you said cerebral, so your brain. So why would your heart be
implicated by something that happens in your brain? That doesn't sound right.
Great question.
Because cerebrovascular diseases means that these are blood vessels supplying the brain.
So the blood vessels come under the category of cardiovascular diseases.
Oh, so that's why the heart is a wide swath of illness.
Exactly.
As you're describing it.
Remember, I'm not talking about the heart.
I'm talking about cardiovascular diseases.
So that includes all these other.
So cardio is heart.
Vascular is your circulatory veins.
Exactly.
So to combine, I guess.
So a stroke would be cardiovascular.
Is that right?
It's exactly right.
So a cerebrovascular disease includes most commonly the stroke.
Oh, got it. Very cool. And then a cerebrovascular disease includes most commonly the strokes. Oh, got it.
Very cool.
And cardiovascular disease also includes congenital heart disease, like when you're a baby.
And I already mentioned rheumatic heart disease.
So yeah, to the point that we were talking about earlier, it is the leading cause of death around the globe.
17.9 million people died in 2019.
the globe, 17.9 million people died in 2019. And the leading cause, specifically 85%, are dying from heart attacks and strokes. So to your question, Neil, so yeah, we know what the
risk factors are, or maybe people don't, but they're not really adopting all of it. I really
think it's because most people don't know that the leading causes are,
the risk factors are, it's smoking, it's unhealthy diet, it's lack of physical activity,
it's being overweight or obese, and it's also harmful alcohol consumption. I don't think-
Oh, well, that's it. I'm dead. I'm dead. Well, that's it. It was nice knowing you guys.
Chuck's got three more months. It was great, yeah. I got three minutes.
Are you kidding me?
I got three minutes.
So, Doctor, is it as simple as saying if we cure the cardiovascular disease scenarios,
we are now in the situation where we can optimize our lifespan to, say, 150 without there being too many problems?
No, you die is something else.
I know, but I want the doctor's answer, not my fault.
Well, but in this particular case,
our Azure physicist expert is right
because I hate to be cynical.
I'm almost always optimistic and positive.
But in this case, I mean, look, if you're right, Gary,
to your point, if we optimize and suppose we
eliminate all risk factors for heart disease, right? And we are not dying of heart disease.
Look, if we're lucky enough to live till the eighties, nineties, somebody, something else
is going to get us. I bet no caveman died of prostate cancer. Right. Exactly.
They didn't live long enough.
They only lived to 32.
That's right.
That's right.
32 years old.
Yeah, great prostate.
Everything else failed.
This longevity question is not the direct subject of this episode,
but it's way more complex than just solving one disease or another.
Right.
Yeah.
it's way more complex than just solving one disease or another. Right.
Yeah.
But you should keep in mind that you do live better.
So think of all the people who are suffering from all of these different ailments,
you know, cardiovascular diseases and heart disease.
If it isn't even the big giant widow maker
or whatever that kills you, you're not living well. You're suffering all that time.
Yeah. And can I share a personal story? So I'm of Indian heritage. The heart disease is a huge
epidemic amongst the Indian community. My own father was diagnosed, he had
a heart attack in his late 60s. It's totally atypical by Western standards heart patient,
right? Lifetime non-smoker, thin, active, very healthy eater, but he had a strong genetic
predisposition. He had a heart attack in his late 60s. And then 20 years later, a common
complication is heart failure. And to your point, Chuck, your quality of life. In the last year and
a half, two years of my dad's life, he was really struggling with heart failure, which slowed him
down considerably. This is the same guy that went from India to Europe to Canada, drove to Florida.
One of the most active guys I know.
He sadly succumbed to heart failure in March of this year.
Oh, sorry to hear that.
Yeah, no, thank you.
But I mean, but to your point, Chuck, heart diseases, it can really impact one's quality of life.
But if we don't die of heart disease, I just don't think that we're
going to live till 150, Gary, because cancer, Alzheimer's, other neurologic problems, something
else is going to get us. That's my suspicion. Oh, no, I totally understand. I'm just wondering,
you know, just how many different ways does the heart get broken? Does the cardiovascular system tie itself in knots
and just fail to function?
One of the chief ways is being a Jets fan.
That's right.
Says the Eagles fan.
We just beat the Giants, right, Chuck?
Yeah, well, I'm an Eagles fan.
He doesn't care.
I don't care about the Giants.
Go Leafs go.
I don't even follow football,
but I know that just one.
But yeah.
Well, Gary, to your point, outside of supporting the wrong sports team, there are other actual causes of ways to attack the heart.
I mean, look, the most common one we think of is coronary artery disease, right?
That's when the heart vessel, the vessels that supply the heart, they get clogged or
blocked, right?
Causing a heart attack.
But there's also structural heart disease.
So that means the blood, the vessel, the heart valves, the heart wall, the heart chambers,
they're all affected.
Congenital heart disease.
There's also arrhythmias.
So like VTAC, VFib, these can all cause. So there's all types of ways to attack or harm the
heart. Wow. We've discussed there what happens internally. How many external scenarios affect
the cardiovascular system, the heart?
I mean, is it as simple to say not many or just about?
Well, great question.
I mean, the heart is such a fundamental organ.
I mean, I love, love the heart.
It's so simple.
And yet, any one thing, one aspect that goes wrong,
everything shuts down.
Everything slowly deteriorates.
You can have something acute,
right? Like a sudden cardiac arrest, but you could also have something more chronic,
like the heart failure that I described. But to your point, Gary, external causes like
medications. There are tons of medications or drugs. We talked about alcohol, stimulants like
cocaine. These can all adversely impact the heart. So there's a lot of
other external, we didn't even talk about car accidents. What about marijuana? Marijuana?
Chuck's got to know the marijuana. Everybody knows cocaine's bad for your heart, but what
about marijuana? I think, I don't know specifically, Chuck, if cannabis affects the heart.
Cannabis is one of those substances that affects every organ,
but I'll have to get back to you on that.
Cannabis is... I'm going to take that as you saying it's absolutely safe.
That is not what I said, but go ahead.
I love that you clarified, but that is not what I...
Actually, marijuana can make the heart beat faster
and can actually increase blood pressure, which can actually harm the heart.
So, sorry, Gary.
Sorry, sorry, Chad.
Sorry.
Maybe Gary too.
Maybe Gary too.
You never know.
But can I just go back to alcohol?
I mean, people associate alcohol with the liver, but actually alcohol can cause cardiomyopathy.
It can elevate your heart blood pressure.
It can really attack the heart in many ways.
And it's a big issue now because with COVID, alcohol consumption has gone up in women and alcohol-related mortality has gone up in women.
So, look, as a woman and an addiction doctor, as an internal medicine and primary care doctor, this really matters
to me. So, yeah.
That was one of the big surprises during COVID
that liquor store sales
went up precipitously
that entire time.
Because that's when they started delivering.
Yeah, so it seems
like
you can track the health of a country
by the runs on the liquor stores.
I mean, I don't mean to laugh, but just without even testing the people, you can get a first cut at the health by how many cigarettes are sold, how much alcohol is purchased, just at the point of sale.
Well, it's also a hard, I'm actually glad that liquor stores
were open from a harm reduction
lens because if you
cut off, abruptly
cut off a person's alcohol supply,
somebody say who drinks regularly,
you're going to put them into acute withdrawal
and that's a medical emergency.
That means the hospital is going to see more
of these patients coming in.
So from a harm reduction standpoint,
I'm glad that liquor stores were actually open.
But you're right.
You are my kind of doctor.
But to Neil's point, he's right that we did see a rise in alcohol consumption,
cigarettes, all that stuff, which is a sign of increased stress, right?
And stressors, which of course we saw with the pandemic.
Right.
Now, what about the, you know, I think the amateur person,
the uninformed person uses these terms interchangeably,
but if you could detail for us,
like you may have done this the last time,
but I can't hear this too often.
What's the difference between a heart attack,
cardiac arrest, and heart failure?
Those are different things, right?
Yeah, and I'm so glad you're right, Neil.
I remember in med school and resident training,
repetition is the key, right?
You always repeat the same thing
and people confuse these concepts all the time.
So let's start with cardiac arrest.
Very simply, it's the heart and it stops.
Heart just stops.
Many different reasons, but the leading cause is a heart attack.
And a heart attack or myocardial infarction, the blood vessel-
I'll go with heart attack on that one.
Yeah, yeah.
MI, but a heart attack.
But the leading cause of heart attack or a heart attack is when the coronary arteries
or the vessels that supply the heart get blocked.
There's a plaque.
So that's a heart attack.
Heart attack means the heart stops because the blood vessels supplying it get blocked.
And then what was the third?
Heart failure.
Wait, wait, wait, wait, wait, wait.
Just to be clear.
The vessels are getting blocked, constraining blood flow.
Correct.
If you're undergoing that, a person can walk around and say, I think I'm having a heart
attack.
Correct.
Whereas if they actually had a cardiac arrest, they're on the floor.
Yeah.
Almost all causes, usually cardiac arrest is usually a sudden thing, right?
So you're dropping, you're unconscious. That
doesn't mean you die, but that's what that means. Heart stops immediately. Heart attack,
to your point, Neil, you're right. People almost always have symptoms indicating because it's a
slower process. It could be fast, but it could also be slower. So that means that part of the heart muscle is no longer getting nutrients,
specifically oxygen,
so it starts to die.
And myocardial infarction means death of that heart muscle.
And then that third distinction, Neil,
you brought up earlier.
Yeah.
So that means that that's just, again,
a general term where the heart just isn't pumping strong enough.
Again, a lot of causes, the primary cause for heart failure being a coronary artery disease or heart disease.
Yeah.
And what about what they call AFib?
Can you just describe that to me?
Yeah.
Describe that to me.
Yeah.
So again, another category for what attacks the heart or a form of heart disease is really what we call arrhythmias. And one of the most common arrhythmia or a heart rhythm abnormality is atrial fibrillation or AFib.
So, you know, there's different chambers of the heart, the atrium.
That atrium, it starts to kind of not have a regular rhythm,
but it kind of, what we call fibrillation.
Yeah.
Well, there's a flutter and then there's a fibrillation.
That's different things.
Flutter is a formal term?
Atrial flutter.
Absolutely.
Well, all right.
So if you say, my heart was a flutter, it means you're about to die.
Oh, look at that.
Isn't it funny how we- You're a cheerful soul today, Neil. You really are in a flutter, it means you're about to die. Oh, look at that. Isn't it funny how we-
You're a cheerful soul today, Neil.
You really are in a cheerful mood, aren't you?
We romanticize the heart in so many ways, don't we?
A broken heart.
A heart is a flutter.
But yeah, I'll be the medical geek here and say that a flutter.
Can I tell you that an atrial flutter, a flutter, your heart rate.
So what's the normal heart rate?
Do you guys know?
Well, mine is 65.
Which is in normal range.
So normal range is from 60 to 100.
Can I tell you patients with A-flutter, their heart rate can go up to the 200s.
It is a absolute medical emergency.
They need to get treatment.
I thought that was tachycardia.
So tachycardia, Chuck, great.
Great point.
Is anything above a heart rate above 100.
So tachycardia, you can have like a lower range,
but you can have really, really fast.
Wait, wait, just to be clear,
just to be a little more complete here.
So the Greek word tachyus means speed or swift.
And this way you get tachyometer from it.
And tachyons, hypothetical particles that exist traveling faster than light.
And now the medical folks, you're all into the Greek and Latin.
So I presume it's the same root for the word.
I died faster than light.
Sorry, death.
I beat you, death. Faster than light.
That's right. You can't kill me.
I'll kill myself. I won.
I outran Death.
So give me that word again.
Tachycardia.
Oh, tachycardia.
Tachycardia.
Got it. Yeah. Got it. Yeah.
So, Leapy, are there top five misunderstood things about the heart that that run around the public i mean i can say the top five things people misunderstand about space first they think that you can hear explosions in
space because every movie like i can go down well i got my list so what's your list yeah of things
that people think is true but are but are not yeah i'll put this under, say, the top five. I mean, there's so many I can share,
but the top five human heart facts and or myths.
First of all, let me start off with that.
I'll say that most heart attacks,
I don't think people know this,
most heart attacks happen on a Monday morning.
And so why is that?
It turns out that Mondays cause more stress
than other days for most people, and stress hormones are the highest in the morning. And both of these combined increase blood pressure, increase heart rate, and stress hormones. They break off a piece of plaque, leads to blocking of the vessel, and a heart attack.
Wait a second, Chuck, I need you to sing here. Rainy days and Mondays.
I just call
out.
There is another pop song by
an Irish band called the Boomtown Rats
called I Don't Like Mondays.
Bob Yeldorf, right, Gary?
Thank you, good knowledge.
Thank you.
Oh, mic drop.
Mic drop.
Mic drop. Thank you. Another knew what you were going to say. Oh, mic drop. Look at that. Mic drop. Mic drop.
Thank you.
Another one of my favorite top five kind of human heart facts or myths,
men and women have different heart attack symptoms.
People think, oh, women have that crushing chest pain.
That's actually not true.
Women present somewhat differently, often more kind of benign,
subtle things that get missed,
some nausea, some difficulty breathing, sweats. So I think that's important for women to recognize
that, but especially doctors, when they present in the emergency department, don't just brush
it off as heartburn or they have anxiety. Do the proper testing, get a proper history.
And by the way, so we already talked about a broken heart.
Well, a broken heart can feel like a heart attack
because they have the sudden intense feelings
of sadness or grief,
which can mimic a heart attack with symptoms,
with chest pain and a shortness of breath.
And why is that?
Because those stress hormones
and the treatment for that,
for a broken heart is just getting rest.
Another one of my favorite myths.
I'm reminded, wait, wait.
So Aristotle famously, infamously declared that the source of our feelings
are in our heart.
So he was partially right there in this case.
Yeah, partially, but it's in the brain, but yes.
He's right, but he's not right. It's the part of your heart that's in the brain, but yes. He's right, but he's not right.
It's the part of your heart that's in your brain.
There you go.
Chuck said it right.
Chuck M. Davis.
Oh, man.
Yeah.
Well, you're going to like this myth.
Sneezing does not stop your heart
or it doesn't make your heart skip a beat.
The heart may temporarily change rhythm,
but the heart only stops during a cardiac arrest. And lastly, I want to share that laughing is good
for the heart. Blood vessels relax when you laugh and then at least 20% more blood going through
your body. So your heart doesn't have to work as hard. So someone in the middle of a heart attack,
we try to bring chocolate along and tell him jokes.
And that'll save them.
That has surely killed them.
Another really kind of
cool heart fact, did you know that there's
60,000 miles of blood
vessels in your heart? And if
one of those blood vessels is damaged,
your heart has to work even harder.
And just for reference, Neil is going to love this.
The circumference of the earth is about, say, almost 25,000 miles.
But you'd have to take three trips around the earth to equal the length of blood vessels.
I thought that was kind of cool.
Okay.
So I once tweeted that if you take all the veins, capillaries, and arteries out of a person's body
and string them end to end, that the person would die.
That's my contribution to that.
Oh, wow.
We're just what we are.
So, Gary, you're still thinking about COVID here.
What's up?
Yeah.
If we think back, doctor, to that period that's just recent,
lots of different things entered into our mind space
as to what could be happening, what was happening,
what this could do and what that could do.
The causes and effects of things was very actively thought of.
Yes, and there was very little, you know what, these are the facts. So was it an external thing? Was it an internal
thing? Was COVID going to give us a heart attack? Was the vaccine going to do some damage that we
couldn't tell, you know, because no one had been there yet? What are the actual facts going forward
as we know now that were real and not fantasy of some conspiracy. So we're trying to unpack the COVID virus,
our physiological reaction to the COVID virus,
and the vaccine and our reaction to the vaccines, right?
Yeah.
Yeah.
So really great question, Gary.
So let me try to unpack this.
So let's go back to early 2020, if not even late 2019,
when we were starting to learn about this
SARS-CoV-2, this novel coronavirus. So remember- What makes it novel? Where does that word come
from? It means, honestly, Neil, the medical scientific community had never seen this
particular virus before. We've seen the first SARS coronavirus that caused SARS,
but we've never seen this version. That's what novel means. It's new on the scene.
Exactly. That's exactly what that means. And what we discovered day by day as the, remember,
we didn't even call it COVID in the beginning. We called it the coronavirus, right? We learned slowly but surely,
this is not your typical respiratory virus. It was attacking all these different organ systems
compared to say the common cold virus or influenza virus. These viruses strictly
cause respiratory symptoms. And to your point, Gary, we soon discovered that SARS-CoV-2,
it attacked the brain. It causes neurologic symptoms, cause GI symptoms, and it caused
cardiovascular or heart symptoms. People were getting myocarditis, cardiomyopathies,
all these heart problems, clots. And we're still trying to understand why, but studies now are suggesting and indicating that
SARS-CoV-2 and COVID-19, it's not even so much an infection as it really is like an immunologic
problem. And to your point, Gary, unfortunately, back when Damar Hamlin, the NFL player,
underwent a cardiac arrest, he's thankfully alive. But when I posted a video about his cardiac
arrest and he was making the different explanations why it happened, so many people responded and
thought incorrectly that the COVID vaccine on Brewster caused his cardiac arrest. And let me just say, the studies are very clear
that COVID-19 or the SARS-CoV-2 virus has been shown to cause cardiac problems, but not the
vaccines. Just as a reminder that vaccines, they are medications that are designed for all people.
And so they undergo perhaps the most rigorous testing more than any other
medication. Are there some side effects? Yes, they're usually minor, but cardiac arrest is
really not one of them. You mentioned something, I have to emphasize it because I haven't heard it
put so succinctly, that if I'm developing a big pharma or any kind of pharma,
and I'm developing a medicine for a particular ailment, then I'm going to test it on people
that have that ailment and maybe a few others just for control. But I don't have to test it
on everyone because it's only targeting an ailment that I'm trying to see if I can cure.
A vaccine, obviously, when we're reaching for herd immunity,
that goes into everyone,
essentially everyone.
And so you would expect vaccine trials
to involve manifold more people
in the testing of it
than any other kind of drug.
Is that a fair exposition
of what you just said?
Yeah, and I'm glad you emphasize it again.
In fact, I'm going to re-emphasize
your emphasis of what I see. And I'm doing this, Neil, because as you all know, epidemics, a little in pockets of communities of
measles, of polio. And to your point, Neil, vaccines, think about childhood vaccines,
vaccines that we all got as babies to prevent diphtheria, prevent, not to treat, prevent getting
tetanus, polio, diphtheria. These were designed to make sure they were safe for babies
so that we can then all grow up to be healthy adults.
And I think I'm old enough to have had a smallpox vaccination.
And I'm Canadian, so I got smallpox in Canada.
Sorry, the vaccine, not the disease.
Right.
Wow, I'm not going to Canada now.
So, Doc, uptaling on what you just said, do vaccines actually prevent, because you just said some prevent, or do they actually lessen symptoms and keep you out of the hospital?
Yeah, that's a great, great way of actually structuring this issue of vaccines and to address the confusion that the public has. So historically, all these childhood vaccines,
they were mostly designed to prevent you from getting the disease.
Diphtheria, tetanus, pertussis, polio.
The COVID vaccines, however, that were developed in the last couple of years,
there's confusion because it doesn't necessarily prevent you from getting the disease.
The COVID vaccines were designed to do three things, and they do them very well.
One is to reduce the severity of the disease, reduce hospitalizations, and reduce deaths.
Unfortunately, it wasn't messaged necessarily that way in the beginning by the CDC.
Not at all.
We thought of it as another vaccine where then you'll never get it again.
Yeah, that's why a lot of the pushback from the public was, well, I got the vaccine, I still got COVID.
It wasn't designed to prevent you from getting COVID.
It was designed to really prevent you from getting severely sick and dying, getting hospitalized and dying.
So that's the difference.
Same as influenza, too. I mean, this is the deal with influenza that many people say, well, I don't need it because,
you know, it's, you know, and let me tell you, you get the flu once for real. I got it once in
my life for real. And I've never not gotten vaccinated again. Can I tell you, Chuck, I just
interviewed rapper Ice-T because he's promoting the flu vaccine. He wants to tell his story.
And so the flu vaccine, to your point, will it mean that you'll never get the flu? No,
but it significantly reduces your risk of getting the flu. And as somebody who rotated through the
Duke ICU, I remember seeing a 35-year-old man, otherwise completely healthy guy. He was on
what's called an ECMO machine, which is like a more advanced
ventilator.
And I asked the fellow,
my ICU fellow,
hey, what's his deal?
He said, oh, he has the flu.
This is a guy that nearly died
from influenza.
People forget that.
Still 35,000 people a year, people.
Yes.
Still just influenza.
Vaccines work, people.
Get the vaccine.
And don't
write, please. Okay?
If you don't want to do it, that's
you. Okay? That's you.
It's science. This is a science
show. What we're saying
is vetted information.
It is empirical. It has
been proved. And so when we
say it, we're not telling you to do
anything. We're giving you the information. That so when we say it, we're not telling you to do anything.
We're giving you the information.
That's all we're doing.
So don't write,
and I don't want to hear about it.
Do I need to call 911?
Does Chuck need an author?
Oh, I'm an author.
You guys are getting all political.
Look at you on StarTalk getting all political.
It's not political.
It's science.
You're political.
You're political. There you go.
All right. I'm done. All right political. You're political. There you go.
Okay, it's the facts.
All right, good.
I'm glad you, I'm glad you vented.
Yes.
And moving into thickening of ventricle walls, doctor.
This is, if I'm wrong, correct me, please.
Isn't this one of the side effects of getting something like COVID?
Now, if that's the case, can you rehab out of that?
Unlike if you got out of that?
Unlike if you've got sort of hypotropic cardiomyopathy,
which it thickens and it stays thick.
Yeah.
Does this, with COVID and it thickens,
it can be rehabbed out or is it going to stay thick? Yeah.
I'm glad we're talking about heart inflammation
and not anger management.
Yeah.
Put that in the rearview mirror.
We're out.
Yeah, Gary, thanks for clarifying. So heart inflammation, cardiomyopathy,
can it be reversed through treatment? So the answer is actually yes. First of all,
heart inflammation is rare, right? It occurs post-injury or after an infection. Mild cases
don't even need treatment. So treatment depends on the type of
inflammation and the underlying cause. And the most common types are endocarditis, myocarditis,
pericarditis, and the treatment would be antibiotics, steroids, antifungals,
sometimes blood thinners. But yeah, most- Wow, antifungals.
Yeah, because the fungus can cause cardiomyopathies
and heart inflammation. So yeah, that's the good news. Now, see, I have something called
left ventricular hypertrophy. So that's a thickening of the wall. But my cardiologist
said that, I mean, he gave me some medication to soften my heartbeat, but he was like, I said,
so how do we unthicken the wall? And he said, it's a different kind of muscle. It doesn't work that
way. So LV, what you're describing Chuck is LVH. We use that term very commonly or left ventricle
hypertrophy. So that's different from say like HCM or hypertrophic cardiomyopathy. So that's a
different, often there's a genetic causes for that.
But what you're describing, Chuck,
is actually very common.
And that's because one of the most common causes for LVH
is actually hypertension or high blood pressure.
That's what I have.
Yep, yep.
That's exactly what did it.
Yep, exactly.
And valve disease,
particularly the aortic valve and mitral valve disease.
When you get any kind of blockage
or impairment of that valve, that left ventricle has to pump even harder, which is why that heart
muscle gets bigger and bigger. The good news is that these are treatable. So this is a reversible
type of LVH, right? So treat the high blood pressure, treat the valve, reverse the valve
disease. You can actually treat and manage the LV the valve reverse the valve disease you can actually
um treat and manage the lvh and reverse it there you go i'm not gonna die after all
of all the people who die of heart disease what percentage of them does it come from
a congenital condition that they just were were sort of a cheating time their entire life so for
example i'm old enough to remember the 1970s where jogging and running
became a craze basically for the first time. There were books on it. There was a guy named
Jim Fix, who was a big running enthusiast. He was interviewed everywhere. And he wrote a book,
a bestselling book, and he dropped dead of a heart attack. And only then did we learn,
sorry, he dropped dead of a heart attack in his 40s or 50s, that his father had heart disease, died very young.
And maybe he cheated time at many years beyond his due date for even having died young.
So I'm just asking, what percentage of that is it?
So I'm just asking, what percentage of that is it?
And I didn't realize that congenital heart disease is as common as it sounds like it is. So look, the vast majority of people who die of heart disease really die of heart attacks and strokes from preventable causes.
So let's be really clear about that, okay? The vast majority,
especially today, it's lifestyle modification, which can prevent that or significantly reduce
your risk. When you're talking about, Neil, with the congenital heart disease, it's actually pretty
rare. Could there be more cases of that if we did our testing for it? Sure.
But the good news is that if you're not getting diagnosed with it until much later in life,
that's actually the good kind of congenital heart disease to get.
Most of the babies that are getting it, and we now have in utero cases where you can,
because remember, the cardiac development ends by week eight of gestation.
And we now have great fetal technology imaging.
So we can detect in utero if a person, if that fetus is going to have a congenital heart defect, most congenital heart defects.
So it's rare.
Many are treatable in utero and once a baby is born.
So neonatal cardiology, there's amazing cardiac surgery advancements in that regard.
When you said about these genetic mutations that predispose you to cardiac events and you say screen them, are you always looking for the same flags or do these things change and are tricky?
So there are several genes that are involved in various ways.
Some can increase your risk for arrhythmias.
Some can increase your risk for coronary artery disease.
Like I'd say in my dad's case, without doing any testing,
I almost promise you he had a strong family history and genetic history. So there's a lot
of genes that are involved. I think we're finding more and more. Gene therapy is an exciting area,
to be honest. The field of cardiology has not really utilized gene therapy as much as, say,
has not really utilized gene therapy as much as, say, other fields like oncology.
But there are exciting advancements in that area.
But just clarify, when you say gene therapy,
I guess I don't really know what that is.
Are you going in and nip-tucking the gene sequence?
Or are you learning about the gene defects
and then you give support?
Yeah, yeah. So a great question. Let me
clarify that. So gene therapy, again, there's different ways. Let's use the example. Cleveland
Clinic infused the first gene therapy for hypertrophic cardiomyopathy. And it's based on
this myosin binding protein C3 gene mutation, which is actually the most common genetic cause of AHCM.
So what they're doing actually is kind of going in and replacing or repairing that gene. Again,
it depends on what the genetic mutation is. Sometimes you just have to just rectify the
mutation. Other times there's no protein at all, so you just have to replace the gene. So it depends on the mutation.
So that's all gene therapy that you described? Correct. Correct. Interesting. And if you make
that change, will their offspring no longer be susceptible? Do they pass the- Do they pass that
gene? A couple of ways to answer that. So it depends on at what stage.
If they've already had kids, then obviously they're going to pass on that same defective gene, right?
If it was done before, early on, then at that point, if the gene is repaired, they'll just pass on the healthy gene.
Oh, man.
Well, we need to make gene therapy the order of the day for everything.
Everything.
Everything. It's damn expensive, Chuck, that we need to make gene therapy the order of the day for everything. Everything. Everything.
It's damn expensive, Chuck, that we need a lot more research in it.
Again, the field of oncology is really on top of this and other areas.
Cardiology, surprisingly, not as much.
But that said, there's so much research behind cardiology because it's the leading cause of death.
So I think there's going to be exciting stuff coming out.
leading cause of death. So I think there's going to be exciting stuff coming out.
So now I've seen where there are doctors that say certain medications, they use the genes to your genetic makeup to tailor certain medications to your disease. Is that part
of gene therapy or is that just a treatment option? Yeah. You guys are familiar with like, what is it?
Ancestry and what's that?
The one, two, three, something 23andMe.
23andMe, yeah.
Let me just say that the true medical opinion where that's concerned, first of all, really
don't go by those tests.
I mean, don't use that to make medical decision-making.
Doctors, cyber specialists, we don't really utilize that.
If you are, it depends on the patient, Chuck,
it depends on their history
and what the actual clinical indication is.
We'll do appropriate genetic testing,
like say for colon cancer.
You know, Chadwick Boseman died in his 40s,
which is really young to die of colon cancer.
But if you have a strong family history,
then yeah, or BRCA, you. But if you have a strong family history, then yeah. Or BRCA.
If you have
a strong family history of ovarian breast
cancers, then yes, that will prompt
us to test you for these
genes. I got to tell you. Angelina Jolie
had the BRCA gene, is that correct? That's exactly right.
Which prompted her. Which preemptively
had the double mastectomy. Prompted her
to exactly, proactively
get the, prophylactically get the double mastectomy. Prompted her to exactly, proactively get the, prophylactically get the double mastectomy
because she knew based on genetic testing
that she was at very high risk.
Remember her mother died of,
shoot, it's either ovarian or breast cancer.
So she, so, so,
but I got to tell you, Chuck,
genetic testing is very expensive, A,
and B, it's mostly still unavailable.
So that's why we don't,
it's not like for high blood, you know, get screened for high blood pressure. That's a very
simple and cheap screening technique. We just don't have that really for most conditions.
But doctor, we're dealing with the number one killer. I mean, if this number one killer
were an individual, a person of interest, there'd be a manhunt and then some,
right? So are we talking about financing? Are we talking about research dollars here? Because
we understand that the need for it to go into oncology is most definitely there. But surely,
if it's number one, and it's been number one for some time now, surely this has to be dollars well
spent. Yeah. So let me tell you,
I'm really glad you brought that up.
And this is where I might get a little angry
and frustrated with the system.
Okay.
Not with me though.
Okay.
I'm going to need anger management
right now.
Here's the anger management.
All right.
We're going to do a whole show
just on anger management, man.
Geez.
No, but my frustration lies in,
to your point,
Gary, yes, it still remains the leading cause of death in this country and globally. But here's
the thing. We know how to fix it. We know how to prevent it. We don't need more research, Gary,
in this particular area. We know it's just not happening. And why? I'll focus on the United States. Because in this country, we don't invest in prevention.
We don't invest in what we already know.
We don't help the communities that are marginalized, that are at most risk.
We are targeting those people, those communities.
We aren't telling them, hey, if you just do X, Y, and Z, and this is how we're going to help you do it,
you're going to live a longer and healthier life.
That's where the focus needs to be.
So there needs to be a preventive care profit structure.
I disagree.
Go ahead, Neil. Bring it on.
Oh!
Put him up.
Put him up.
Okay.
I think in the future, you should be able to, I should be able to take a pill or something
so that I don't have to change my habits and I still don't get heart disease.
That's the typical Western approach, right?
In this country, we want a pill for everything, right?
I want to eat all the cholesterol I want.
Yes, right.
I want to sit on a couch.
I want to be overweight and still not diverted.
That's the solution.
Hey, man.
That's how I feel about it.
Hey, man.
I made a bacon and lard sandwich the other day.
And then I went back and made another one.
And I just took the pill and I'm fine.
And then a donut and ice cream for dessert, right?
Right, right.
On the couch.
Yeah, so there's this idea of, oh, just give me a pill, doc.
You know, I don't want to lose weight.
I don't want to eat healthy.
Yeah, that's a very Western mentality, right?
Yeah, and I'm from the West.
How about that?
There's something wrong with the West.
And guess what, Neil?
This is why we're dying.
This is why heart disease is killing us.
Look, I just came back from Denmark and Poland.
At the end of the summer, I was doing some speaking, some vacation.
And let me tell you, they have, especially in Denmark and in the Nordic nations,
they have really healthy outcomes and they live healthier lives.
They are active.
They live healthy they also
not coincidentally have universal health care um so yeah all that's good but they also don't have
uh the most delicious food so come on let's let's just be honest okay like you're not gonna find
that you're not gonna find that same outcome in italy okay can go to Poland and Denmark.
I'm pretty sure they have Italian restaurants
in Copenhagen.
I actually dined at Noma, one of the
best restaurants in the world.
That's in Denmark.
Chuck doesn't know about that. The number one
restaurant in the world right now is in Denmark.
They bought that ranking.
Yes, I did.
They bought that ranking and you know, I do. They bought that ranking
and you know it.
That's the reason I went to Denmark
because I got invited.
I was a pandemic hero.
So I was invited by Noma.
I was very honored.
But can I tell you, Chuck,
you're right.
Greece, Italy,
they are known for their cuisine,
but they are also known
for having a very active lifestyle
and eating healthy ingredients.
Their pizza and pasta
made with much more healthy ingredients.
So look, in the-
It's not processed and you're right.
But now wait a bit, you just sparked this in me.
One of the chief proponents of long life is community and friendship.
And what you find in those two communities that you just mentioned is tight relationships
where people have lifelong companions and friends.
What's that do to the heart?
Is that part of it?
Absolutely.
I'm so glad you mentioned that.
A common say and motto in my field of,
you know, the opposite of addiction isn't sobriety,
it's connection.
And what have we seen in the last six months or so?
U.S. Surgeon General's report,
loneliness is the new epidemic.
Drug overdose has skyrocketed.
This is all connected
because social connections have been disrupted.
These connections, human beings,
the most introverted human being
still needs, craves some type of connection
and human interaction. All of this,
believe it or not, is still heart healthy because indirectly it'll reduce your stress hormones.
It'll normalize your blood pressure, your heart rate, which remember are all risk factors for
heart disease. And let's not admit the fact that if you have now a close friend, they'll say,
And let's not admit the fact that if you have now a close friend, they'll say, dude, you're not eating healthy.
These forces operating back on you.
Or a friend that say, hey, Chuck, man, you're getting a little too angry for me.
Right?
So you need a friend to say that, right?
Yeah.
Yeah.
So, Lippy, where can we find you?
Yeah, great. People can reach me on Twitter at Lippy Roy, Instagram and TikTok.
Lippy, L-I-P-P-I, Roy.
Correct.
And Instagram and TikTok at LippyRoyMD.
And I launched my new speaking company, SitaMed.
That's S-I-T-A-M-E-D-L-L-C.com.
So reach out anytime.
Wow.
Okay.
So you're getting out there then.
I'm trying.
And of course, my YouTube health show, Health, Humor, and Harmony.
Yes, yes.
We heard that.
And so we like the humor part, especially.
Trust me, I know.
Delight to have you back on StarTalk.
Thanks for your time and your expertise.
Thank you, Neil.
A pleasure being here.
All right, Chuck and Gary, always good to have you guys.
Always a pleasure.
Thank you, Neil.
Pleasure.
Thank you, Doctor.
Thank you. Neil de Pleasure. Thank you, Doctor. Thank you.
Neil deGrasse Tyson here, your personal astrophysicist, as always.
Keep looking up.