Hypovolemic shock | Circulatory System and Disease | NCLEX-RN | Khan Academy

Hypovolemic shock | Circulatory System and Disease | NCLEX-RN | Khan Academy

– [Voiceover] Hypovolemic
shock is a type of shock so low perfusion and low blood pressure that is caused by low volume, and this is low volume
of the vascular space. So, to understand hypovolemic shock, let’s take a look at our
cardiovascular system. And of course, I’m gonna start
by just drawing the heart. The heart of course delivers oxygen and vital nutrients to tissues and organs. So, I’m gonna write organs over here and between the heart and organs we have the vascular space. So we’ve got arteries
delivering blood to organs and veins returning
blood back to the heart from the organs. So I’ve got this oversimplified cardiovascular system right here but this will do the trick to understand hypovolemic shock. So hypovolemic shock you’ve got low amount of blood in the vascular space that is able to return to the heart. And the problem the heart runs into is it tries to pump blood to the organs but the organs are not
getting enough oxygen, not getting enough blood because the system doesn’t
have a lot of blood in it. So this low return of blood to the heart is known as decreased preload. Preload is you can essentially think of as loading the heart up with blood. It’s essentially the filling of the heart. Another term that’s really
often interchangeable is left ventricular end-diastolic volume. It’s essentially saying when
you’re filling up the heart before it contracts. So that’s preload. You’re probably also familiar
with the term afterload. Afterload is after the heart has already contracted and
squeezed out the blood. It’s how much blood is left in the heart. So then it actually stands to reason that preload minus afterload would equal to stroke volume. So think about it. How much blood is in the heart just before it contracts and how much blood leaves the heart just after it contracts. That’s exactly what the stroke volume is. That’s how much volume the
heart has pushed out of it. So, if you lower preload,
lower return to the heart, you’re going to lower stroke volume. That’s assuming that let’s just say afterload doesn’t change too much. So you lower stroke volume then that means you’re going to lower cardiac output as well because cardiac output is
stroke volume times heart rate. How much blood is squeezed out per beat and how many beats there are per minute. That gives you the total amount of liters squeezed out of the heart
per minute cardiac output. So this decrease in cardiac ouput is what is causing the
low tissue oxygenation. It’s not the heart’s problem. The heart is trying to beat furiously. It actually increases heart rate in response to this
decreased stroke volume. Remember, that’s actually one of the cardinal symptoms of shock, an increased heart rate, tachycardia. And of course, the blood
pressure goes down as well as you can recall the
mean arterial pressure, the blood pressure is
equal to cardiac output, times resistance of the vessels. Systemic vascular resistance. So this is kind of just a quick
recap of shock in general. Oh and hey, look. If we lower cardiac output which we’ve caused from
this hypovolemic shock, we still want to try to
maintain blood pressure, right? So, what do you think is gonna happen? The body is going to try to respond by increasing resistance
of the blood vessels. So that’s exactly what happens. Let me illustrate that right here. So there was low blood volume before and the patient has hypovolemic shock so the resistance of the blood vessels will need to increase in response. So the body does that by
constricting blood vessels, vasoconstriction. Remember when the diameter
of a blood vessel decreases, we have increased resistance. And this increased resistance allows blood to be squeezed forward to return to the heart. This will mostly happen
in the venous system to return blood to the heart with the hope of increasing preload. And also, maintaining blood pressure with vascular resistance. And remember, this vasoconstriction is caused by the nervous system creating a sympathetic response. And the sympathetic response is really driven by
this low blood pressure. If you recall, there are
things called baroreceptors at key locations in the vasculature that assess the blood pressure. When the blood pressure is low, the sympathetic nervous system kicks up and not only will the blood vessels clamp down to increase
blood flow to the heart but you’ll also be getting sympathetic tone to the heart as well, and that’s why you see
this increased heart rate. Okay, so that gives you a
good amount of information about the concept behind hypovolemic shock but what really causes it? Well, what’s gonna cause low blood volume? I’ve arbitrarily divided it up into really two major concepts. Blood loss or fluid loss. So let’s scroll down here. So blood loss can be really anything that you can think
would cause blood loss. A patient vomiting blood,
urination of blood, internal bleeding, external bleeding. And fluid loss is very similar. A patient could be excessively vomiting, having severe bouts of diarrhea, urinating too much and then some of the less commonly thought of losses of fluid. Sweating can be a cause. If a patient has an issue on the skin, so for example if they have a burn, fluid can leak out of that burn because the skin normally
acts as a protective barrier and when you don’t have it, fluid can escape the body more easily. And then you also have
third spacing of fluid. So for example, ascites. Ascites is collection
of fluid in the abdomen and you usually see it with patients who have liver failure. Proteins are normally created
in the liver such as albumin and when the liver no longer can function, it no longer creates albumin. And what albumin does
is maintain blood volume in the intravascular space. So if you have low albumin, plasma and blood volume can escape and collect this fluid in places such as the abdomen which is ascites. So you see, the fluid loss is very similar between these two and in fact, the symptoms will actually be very similar between these two as well. Both of them share the
cardinal symptoms of shock such as tachycardia, low blood pressure and low flow to organs. But also with hypovolemic shock, you’ll see cool, clammy hands and that’s from the vasoconstriction that we were showing before. Blood is actually diverted away from the less essential organs such as the skin and diverted to essential organs such as the brain or
the heart or the lungs. So, because blood’s
diverted from the skin, it will feel very cool. And next you’ll see signs of dryness. A patient’s mouth, they
may have a dry tongue or cracked lips from all the dryness, and their skin may actually
appear very dry, too. And the final symptom
that I want to touch on is the patient may appear very pale. This can be especially noticed when a patient has a lot of blood loss. Blood is no longer coloring their skin so they may appear very pale. And you can look under the eyelids as well which should normally have
this very pinkish color but instead it will be very pale. And that’s actually known
as conjunctival pallor. Paleness of the conjunctiva. Okay, so what do we do to
diagnose and treat this? The diagnosis you’re going to use your different shock labs. Of course serum lactate and ABG to assess oxygenation. And you might also check the CBC which is a complete blood count. And the ABG stands for arterial blood gas. So, you’re assessing the
oxygenation of a patient. And I might as well mention also that serum lactate shows low
oxygenation of the tissues as well. So for the CBC, you
might see low hemoglobin or low hematocrit
particularly if blood loss is the cause of hypovolemic shock. Hemoglobin gives you the
total amount of hemoglobin. Hematocrit assesses the percent of total red blood cells in the body. And once you suspect hypovolemic shock, treatment will be about
maintaining blood pressure and blood volume and also blood content. So, you might be giving IV fluids to replete the blood volume. And you might give pressors which helps blood vessels clamp down as we were showing before. Or you might need to replete
the patient’s blood content. So for example, you
might want to give them a blood transfusion or they might need platelets or coagulation factors if the
patient is bleeding a lot. And coagulation factors can be given through fresh frozen plasma. Fresh frozen plasma is ripe with lots of coagulation factors. Or you might need to give albumin as we were saying before. If the patient’s protein,
blood protein is low albumin’s a way to keep blood
volume in the vasculature and out of third spaces. So you can see treatment focuses on keeping the blood volume up. And of course you want to also treat the major problem. So for example, if a patient is bleeding they may need surgery to
repair damaged blood vessels and stop the bleeding.

26 Replies to “Hypovolemic shock | Circulatory System and Disease | NCLEX-RN | Khan Academy”

  1. Hi, could you clarify whether the vasoconstriction happens in the venous or arterial side? To increase SVR, I believe the arterioles vasoconstrict to divert blood to essential organs.

  2. I think that you made a small mistake when describing afterload. Afterload is not the amount of blood left after ejection of blood, but rather the pressure that the heart has to build up, in order to eject blood against the pressure of the blood that is already in the cardiovascular system within the arteries. The amount of blood left after ejection is known as the "left ventricular end systolic volume".

  3. Afterload is the tension the heart must produce to force open the semilunar valves and eject the blood. EDV (end diastolic volume) is the volume left in the ventricle after filling. SO ESV-EDV= stroke volume. Make sure to make a comment under that part of the video so students don't get confused why studying. Other than that, great video!

  4. Hemoglobin/hematocrit can also be increased, due to concentration. In fact, my nursing book specifically points out that it can be raised, but not the possibility of a decrease (though, that does make logical sense to me-blood out = lower levels).

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