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Health and medicine
Course: Health and medicine > Unit 3
Lesson 1: Heart disease and heart attacks- Heart disease and heart attacks
- Stenosis, ischemia and heart failure
- Thromboemboli and thromboembolisms
- What is coronary artery disease?
- Risk factors for coronary artery disease
- Atherosclerosis
- Heart attack (myocardial infarction) pathophysiology
- Heart attack (myocardial infarct) diagnosis
- Heart attack (myocardial infarct) medications
- Heart attack (myocardial infarction) interventions and treatment
- Healing after a heart attack (myocardial infarction)
- Complications after a heart attack (myocardial infarction)
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Stenosis, ischemia and heart failure
Clarifying a bunch of medical terms around heart disease. Created by Sal Khan.
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SO if you do get a plac, how do you get rid of it!(41 votes)- Dr. Dean Ornish performed a study about this. At the beginning of the study, 48 patients suffering from severe heart disease were tested using dye-enhanced X-rays on the inside of the arteries. Then, the patients were divided into two groups. One of the groups followed the American Heart Association's dietary reccomendations (fat intake=30% of calorie intake, cholesterol=300mg, moderate exercise, no smoking). The other group reduced their fat intake to 10% of their daily calories and took in virtually no cholesterol. They also controlled stress through stretching and relaxation techniques. These are the results of the study:
When patients followed the eating and lifestyle recommendations of the American Heart Association, their arterial blockages worsened and they were at and elevated risk for a heart attack. For the 82% of the other patients, arterial clogging actuallly REVERSED. The first group's risk for chest pain (angina) rose by 165 percent. But the other patients, who followed a strict vegetarian diet and exercised regularly, reduced their risk of angina by 91 percent.
The average American's blood cholesterol is 210. The average vegan's blood cholesterol is 133.
There are better ways to cure/prevent heart disease and get rid of plaque than surgery and drugs.(6 votes)
- Is Sal referring to the heart ,blood vessels, or any of the blood vessels in the body?(4 votes)
- He's referring to the blood vessels in the heart, but this can happen anywhere. The problem with this happening in the heart is that if a major vessel becomes blocked, there is not a back up blood supply that can get oxygen to the tissue. Most of the tissue in the body has multiple blood supplies so its not as big of a deal if one artery becomes blocked. Some other organs with single blood supplies that will be majorly effected if there is a blockage are the lungs (pulmonary embolism), brain (stroke), and intestines.(10 votes)
does stenosis happen everywhere in your body?(6 votes)- You will see stenosis also occur in the bones of the spine also, called Spinal Stenosis. This narrowing of the bones can lead to pressure on the spinal cord itself and you can imagine the problems associated with that.(1 vote)
Can a heart failure cause a heart attack?(5 votes)
Heart attack can cause a heart failure. ;)
After miocardium infarction fibrous tissue substitute necrotized muscule, so a part of heart wall loss it's ability to contract. This is a cause of heart failure development.(2 votes)
- If schemia is produced by restricted blood flow, then stenosis can not be the cause. Something is missing in this video because according to the laws of physics volume flow rate remains constant when a fluid flows through a "pipe" narrowing. Let's say a hose delivers 5 L/min. If I stick a converging nozzle, the hose still delivers 5 L/min. The speed of the water is greater with the restictive nozzle, but the volumen flow rate is the same. HELP! what am I missing?(1 vote)
- We are not talking about isolated pipe but a network of pipes i.e. the arteries.So suppose one of the pipes gets narrowed ,then the pressure at the point before narrowing increases which is detected by sensors and feedback system operates to cause expansion(increased lumen) of other normal arteries in parallel ,thus we see the stenosed artery indeed gets less blood supply causing ischemia.(8 votes)
Can children get stenosis,ischemia and heart failure?(2 votes)
Yes, unfortunately these days with the poor eating habits such heart anomalies that were once most commonly seen in adults are being noticed in children as young as 6! Other than congenital cases this should not be happening.(2 votes)
Can this also cause a blood clot? How does it form? can you get it fom stress? I would really like to know.(2 votes)- No, plaques do not cause clots directly. However, because they make blood flow slower and more turbulent, they can greatly increase the factors that lead to clots. Thus, having a plaque is a risk for a clot. Additionally, when plaques rupture (break apart), they can trigger the final factor in clot formation, which is hypercoagulability, or making the blood stickier (sometimes referred to as thicker). This is what usually leads to a massive heart attack.(2 votes)
From1:07to1:10Sal says that stenosis is the narrowing of blood vessels. Isn't the formation of an atheroma also the narrowing of blood vessels? What's the difference between atheroma and stenosis?(1 vote)
I would say that the formation of an atheroma results in stenosis. The atheroma is the plaque, and stenosis is what happens in the vessel that has the plaque.(1 vote)
Suggestion: a specific heart failure video identifying heart failure specifically as "pump" failure would really complement this series as there is a lot of confusion between these disease processes, and not all heart failure is related to coronary artery disease (for example, HF related to hypertension).(1 vote)
why would he be able to jog he as to stay fit right?!?!?!?!?(1 vote)
1:07Video transcript
As someone who's married to a
doctor, in the medical field, I think it's pretty important
to have a precise understanding of what the words mean, just
so that you can understand what people are talking about if
either you are a health care professional or if some health
care professional is talking to you, as my wife does
when, well, sometimes does, when she comes home from work. So let's get a little bit more
precise with some of the words we've been talking about,
especially relative to heart disease and heart failure
and all of the rest. So let's say this is an artery. The blood is flowing
in that direction. I'll show the artery
branching off. It thins as it goes
farther and farther along. So this right here is an artery. And let me draw a
plaque in that artery. And we've been
studying these plaques in arteries since the
video on heart attacks. So let's say that this is a
bunch of white blood cells and lipid material. So it's cholesterol and
fats and all the rest. Now a word that you might hear
in kind of a medical context is stenosis. And the word "stenosis" just
refers to the narrowing, usually of a blood vessel. So this right here, this blood
vessel has been narrowed. So this right over
here is stenosis. It's been narrowed
by this plaque. It can also refer
to the narrowing of kind of any type
of tubular structure. So if you have any type of kind
of pipe in a biological system and it gets narrow, they
might refer to stenosis there. But usually they're talking
about a blood vessel. In this example that I've
drawn here it's an artery. So the stenosis is
just the narrowing. Now once the blood
vessel is narrowed, that restricts the blood supply. So you aren't able to get
as much blood through it. So the blood supply
is restricted. So restricted blood supply. Put the I there. Restricted blood supply. This restriction
of a blood supply that usually leads
to some type of loss of function, that's called-- so
this restricted blood supply-- this is called ischemia. Another fancy word,
but it literally just means restricted blood supply. Ischemia. Now if you have stenosis in one
of your blood vessels, in one of your arteries, and it
restricts your blood supply. So it leads to ischemia. Let's say let me draw a
muscle cell farther over here. Let's say this is a coronary
artery that we're dealing with. The muscle cells over here
are going to get less oxygen. So this guy-- let me draw
this cell right over here. And I'm just drawing an
oversimplified diagram. I'm not going to imply
that muscle cells really look like that. And actually, they
won't be-- well, I won't go into
the details here. But this guy's not going
to get not enough oxygen. So you can imagine
that if we're really zoomed in on the
surface of the heart, we're looking at the heart
muscle tissue right here. If whoever's heart this was,
if they started to go jogging or whatever, and this
cell needed more oxygen, probably wouldn't be able
to get that oxygen because of the stenosis which
caused ischemia. And because of that, it
doesn't have enough oxygen so it won't be able to
help the heart pump. Remember, this is just one of
the muscles in the heart that's going to help it pump
the blood properly. So it's going to lead
to heart failure. And once again, the
word heart failure sounds more dramatic
than maybe it really is. It sounds like cardiac
arrest, where the heart stops. But heart failure is not saying
that the heart is completely failed. It's just saying that the
heart is failing its ability to kind of properly
do its function. So when this guy goes
jogging, because he has a restricted blood
supply, because the heart is experiencing ischemia
downstream from this stenosis, that's why there's
heart failure. So not able to deliver. Now this heart failure, which
is due to the ischemia which is due to the stenosis, you
would call this heart failure due to coronary artery disease. Let me write it. We talked about
that two videos ago. Coronary artery disease. Which is really just kind of
an impairing of the heart's function because of
reduced blood supply, because of a narrowing
in a blood vessel restricts the blood
supply ischemia, that is coronary artery disease. And because of coronary
artery disease, when this muscle
cell in the heart really needs to pump hard--
maybe because someone's going up a hill or
climbing stairs-- it's not able to do it because
it's not getting enough oxygen. And that inability to
properly, for the heart, not just the cell, but for the
whole heart, this is just one of many cells that maybe won't
be able to pump properly, for the entire heart to not do
its job, that is heart failure. Now you've also probably
heard the term coronary heart disease. Or maybe just heart disease. These three things are
all the same thing. These are all the same. They all imply some type
of narrowing or stenosis of arteries that leads to
ischemia, reduced blood flow, so that the heart can't function
as well as it otherwise could. Now the last thing
I want to focus on, and I talked a little bit
about it in the last video, is the idea of an
infarct or an infarction. These are kind of
funny words to say. I'll write it over here. So infarct or infarction. So in the example I've drawn
so far, this cell, for example, maybe does not
get enough oxygen, especially once the
person is going upstairs and all of that, to properly
contract and help the heart actually pump. But it's not dead. It's still getting
some base level oxygen. Less because of the
stenosis and the ischemia, but it still gets some oxygen. And we saw in the video
on myocardial infarction or the video on heart
attacks that sometimes one of these plaques might become
unstable and they break off and then you have
a complete blocking of a vessel, a complete blocking
of an artery right here. And we saw in the
last video, we call this blocking what's
called an embolism. And an embolism is the
general term for something that floated around and then
eventually blocks a vessel. And if it was due to kind of
a released plaque that also had clotting factors around
it after it got released, then we would call
this a thromboembolism. This would reduce the
blood flow so much, maybe a little bit might
be able to leak around, but it reduces it so much that
the cells downstream from this actually die. So you actually have
the cell right over here and this cell will die. It might get very little
blood or no blood at all, so it's not getting enough
oxygen to actually survive. And when you have dead tissue
that's due to a loss of oxygen, this is an infarct, dead
tissue due to a loss of oxygen. The process of it becoming dead
tissue due a loss of oxygen is an infarction. And this infarction, this
dead tissue due to loss of oxygen, in the myocardium, in
the muscle tissue of the heart. So now all of a sudden
you have muscle tissue in the heart that's
beginning to die. This is a heart attack. This is a myocardial infarction. So hopefully that clarifies
things a little bit.