Main content
Health and medicine
Course: Health and medicine > Unit 3
Lesson 9: Cardiomyopathy- What is cardiomyopathy?
- Cardiomyopathy signs and symptoms
- Dilated cardiomyopathy: Pathophysiology and diagnosis
- Hypertrophic cardiomyopathy: Pathophysiology and diagnosis
- Restrictive cardiomyopathy: Pathophysiology and diagnosis
- Cardiomyopathy treatment
© 2023 Khan AcademyTerms of usePrivacy PolicyCookie Notice
Dilated cardiomyopathy: Pathophysiology and diagnosis
Created by Matthew McPheeters.
Want to join the conversation?
The American Heart Association lists ischemia as a possible cause of dilated cardiomyopathy. As well as my board review textbook. Am I missing something?(6 votes)
There is Ischemic Cardiomyopathy which is probably what the Association is referring to, as well as your board review. Ischemic Cardiomyopathy (CM) is a fairly common type of Dilated Cardiomyopathy. In Ischemic CM, the heart's ability to pump blood is decreased because the heart's main pumping chamber, the left ventricle, is enlarged, dilated and weak. This is caused by ischemia - a lack of blood supply to the heart muscle caused by coronary artery disease and heart attacks. So yes, Ischemia can definitely be a cause of Dilated Cardiomyopathy.(1 vote)
If a woman develops dilated cardiomyopathy due to pregnancy, is the process reversible after she delivers or are the dilated cardiomyopathy changes permanent?(2 votes)
Peripartum cardiomyopathy usually resolves some time after pregnancy ends. It can actually start months after delivery, so that in and of itself does not fix the heart. There are women who have permanent heart failure after developing the cardiomyopathy, however.(3 votes)
According to "Nurses Quick Check: Diseases 2nd Edition. A cause for Cardiomyopathy, dilated; is Hypertension, Ischemic Heart Disease, Valvular disease. Now considering that was updated in 2009. Does new research contradict their notation? (Lippincott Williams & Wilkins. (2009). Nurse’s quick check: Disease (2nd ed.). Philadelphia: Wolters Kluwer Health/Lippincott Williams & Wilkins.)(1 vote)
I have read that an angiogram is an X ray of the blood vessels so it basically is a soft tissue X ray.
I have also heard of the cardiac enzyme blood test used to rule out MIs if the values are normal. Is the BNP test a cardiac enzyme test?(0 votes)
Yes, BNP is one of many cardiac enzymes.. but the enzymes routinely used in the clinical settings are usually Troponin (usually T or I), CKMBs and sometimes LDH. BNP is still relatively new and there's still ongoing research about that.(2 votes)
- What are you references for the pathophysiology?(0 votes)
Video transcript
- [Voiceover] Let's talk
about the pathophysiology and diagnosis of dilated cardiomyopathy. If you break down the word
cardiomyopathy you can remember that it's a
disease of the heart muscle because cardio stands for heart, myo muscle, and pathy disease. So, a disease of the heart muscle. And dilated cardiomyopathy is a specific type of cardiomyopathy. Now, before we get into what
causes dilated cardiomyopathy, let's first just briefly review some of the normal cardiac or heart physiology. When the heart normally beats the muscles of the ventricles,
the bottom part of the heart, those muscles relax causing
the ventricles to expand, and this draws blood in from the atria. Then those muscles contract
and then that contraction of the muscles ejects the blood out of the aorta and the
pulmonary artery to send the blood either to the body or to the
lungs where it gets oxygenated. A couple of terms I want
to just describe here real quick and the first one is systole. And what systole is, is
it's the period of time in which the heart muscle is contracting. During systole, blood is being ejected out of the ventricles to
either the body or the lungs. But then the other period of time in the cardiac cycle is known as diastole. During diastole the muscles of the heart are relaxing and so the
ventricle size is getting bigger and this is what is drawing
blood into the ventricles so the ventricles are filling. So just a recap of that, during systole the ventricles are contracting and ejecting blood out of the heart. And also during that time that
means the atria are filling and then during diastole the atria are emptying the blood into
a relaxed ventricle. So now that we've reviewed
the normal cardiac cycle let's get into the pathogenesis
of dilated cardiomyopathy and what I mean by that is
how this disease develops. Basically, dilated
cardiomyopathy is caused by a dysfunction in the heart
muscle's ability to contract. And since this is when
the heart is contracting, which we talked about
earlier is called systole, this is known as a systolic failure. So let's see what this looks like. I'm going to adjust the
drawing of the heart here, and now you can see the
heart muscle's kind of thin. The walls of the ventricles have gotten a little bit thinner especially down here at the bottom it's a little bit thinner. And this is just drawn
in here to demonstrate that the muscle isn't
able to contract as well. So let's see what this looks
like during the cardiac cycle. Now the heart is contracting
but it's not able to eject all of the blood
out of the ventricle. Normally the ventricles
eject somewhere between 50 and 75 percent of the blood
out every time they contract. But now this decreased
ability of the ventricles to contract, this systolic
failure, is causing more blood to remain in the ventricle. And if more blood's
remaining in the ventricle less blood has left the ventricle. So there's a decreased flow
to the rest of the body. This is known as a
decreased ejection fraction. What happens to compensate
for this ejection fraction is that the chambers
dilate and this is why it's known as dilated cardiomyopathy. So how does this compensate for the decreased ejection fraction? It would make sense that the body needs a certain volume of blood
with every contraction of the heart and with the
decreased ejection fraction it's getting a lower volume. But if the chambers
dilate the total volume of the ventricles increases so even if you have a decreased percentage
of this increased volume you have an adequate volume of blood that's actually ejected from
the ventricles each heart beat. This dilation gets
progressively worse and worse. Eventually not only are
the ventricles just dilated but the atria become dilated as well because of the backup of blood. And it gets to a point where the chambers can't dilate enough. They just become as
dilated as they can get. And this is when someone
with dilated cardiomyopathy starts to develop the signs
and symptoms of heart failure. These signs and symptoms of heart failure are due to two processes. They're either due to a decreased ability to pump the flow forwards, which will cause things like chest pain because you're not getting
enough blood to the heart or it may cause someone
to faint and pass out because they're not getting
enough blood to the brain. Or you can also have signs and symptoms due to the blood backing up and kind of backing up behind the heart and you get things like swelling or edema of the legs and abdomen
which is known as ascites. So what actually are the causes
of dilated cardiomyopathy? Well, it can be genetic
and these genetic causes are due to problems with
some of the proteins in the muscle cells themselves that don't allow them to contract quite as well. But it can also be due to inflammation of the heart from something
like a viral infection. This is known as myocarditis. Or it can be due to toxins
that affect the heart. The most common of these is alcohol. Or another unfortunate cause
of this is actually pregnancy. We're not exactly sure
what about pregnancy causes dilated cardiomyopathy but
there is definitely an increased risk of developing
cardiomyopathy during pregnancy. And then the last one I want
to mention here is idiopathic, meaning we don't know what causes it. But it's also important to note what are not the causes of dilated cardiomyopathy. Specifically, dilated
cardiomyopathy is not caused by ischemic heart disease, valvular heart disease so diseases of the valves of the
heart, or hypertension. And it's important to note this because these diseases can cause heart failure and it has a similar presentation to dilated cardiomyopathy in that the heart dilates and results
in a systolic failure. But the difference is in those conditions, the heart failure is secondary
to the other condition whereas in dilated cardiomyopathy
it's a primary disease of the heart muscle itself. So dilated cardiomyopathy is not caused by ischemia, valvular heart
disease or hypertension. So now that we've gone over the cause of dilated cardiomyopathy how do we diagnose dilated cardiomyopathy? The first step is going over the patient's history and physical. Let me just abbreviate that: H and P. And the signs and symptoms
or the history and physical are really just going
to be consistent with heart failure but
there's not many that are very specific to dilated cardiomyopathy. The next thing is labs and
one of the most important labs in any cause of heart failure
is something that's known as the brain natriuretic
peptide or the BNP. And BNP is elevated in
conditions that cause stretching of the heart such
as dilated cardiomyopathy so it`s elevated in
dilated cardiomyopathy. But that's not very specific
as it's also elevated in lots of other causes of heart failure. So next we're going to
go to some special tests. And the first one I want
to mention is an EKG. In the EKG of dilated
cardiomyopathy it's almost always abnormal but the findings
are non-specific. An abnormal EKG doesn't necessarily say someone has dilated cardiomyopathy. But a normal EKG will
almost rule out the disease. So almost everyone with
dilated cardiomyopathy will have an abnormal but
it's going to be non-specific. The next one is a chest x-ray
which I'll just abbreviate CXR and this is going to show
something called cardiomegaly. This just means enlarged heart. It makes sense that if in
a dilated cardiomyopathy the heart gets enlarged then in the chest x-ray you'll see a big heart. The next test, and the best test, for dilated cardiomyopathy
is an echocardiogram. An echocardiogram is an
ultrasound of the heart. In an echocardiogram you can see the dilation of the chambers as well as the decreased ejection fraction. There's two other tests I want to mention but they're not routinely used in the diagnosis of dilated cardiomyopathy. The first one is an angiogram and this is a study that looks that the
blood vessels of the heart. And since I said dilated cardiomyopathy is not caused by ischemia an angiogram is not going to show
any signs of ischemia. The last thing I want to mention is a biopsy of the heart muscle itself. In a lot of types of cardiomyopathy biopsies of the heart
muscle are very important and they give you an idea of what the cause of the cardiomyopathy is. And kind of like the EKG the biopsy is usually going to be abnormal. But it's not very
specific so if a provider thinks a patient has
dilated cardiomyopathy these are the three major
tests to diagnose it. These tests may be helpful
but are only really used if the provider is trying
to work up the patient for another condition and then they end up realizing that the patient
has dilated cardiomyopathy. So, just remember that
dilated cardiomyopathy is a dysfunction in the
heart's ability to contract. Which means it is a systolic heart failure that manifests as a
decreased ejection fraction and so the heart will compensate
by dilating it's chambers and that is why it's called
dilated cardiomyopathy. And that it's diagnosed primarily with an EKG, a chest x-ray and the best test for it is an echocardiogram.