Hydrostatic Pressure - Medical Applications (Fluid Mechanics - Lesson 4)

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A review of some of the uses of pressure measurements in medicine, with a focus on measuring the jugular venous pressure and bladder pressure.

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IMO - Excellent - That applies to each and every one of your videos - Exact vocabulary and near-perfect layering of complex scientific & medical principles - Your instruction has greatly enhanced my understanding, has enabled me to think better and ultimately be a better physician - Thank you so very much Prof./Dr. Strong

AshishGupta-ppsv

This is excellent. I was perplexed as to why Guyton, without explanation, employs cm water for pleural pressure and continued to use mm Hg for alveolar pressure. This helped.

osteogenesiscongenita

But why does JVP= height over sternum from where you stop seeing pulsations? Even if the blood was standing still the JVP=rho*g*h where h is height difference from head to internal jugular vein? Is it because you assume the pressure is 0 where you cannot see the jugular vein pulsate anymore and how is this assumption validated? And what is the reference pressure? Is it the atmospheric pressure?

tysken

I really appreciate your videos but I find this a little confusing. The title starts, “Hydrostatic Pressure...” defined in the previous video as “pressure in a fluid when it’s at rest”. That video provided an example of an aquarium that doesn’t leak. To be equal to that, the heart must be stopped and all the capillaries clamped to prevent leaks. The arterial system becomes a complex aquarium. If you could insert a tube into the arterial system at various heights, it would “measure” the range of hydrostatic pressures. For a person standing on their feet, the pressure would be greatest in the foot area, corresponding to the bottom of the right-lower side of the aquarium. The numbers from a standard Blood Pressure procedure are reflections of air pressure on an arm artery that has moving fluid. Even the diastolic pressure is when blood is moving into capillaries that leak into their adjacent space. The blood is not at rest, so why is it called an example of hydrostatic pressure? And if it’s not hydrostatic pressure, what is it?

georgeseese

When the heart squeezes blood out of the heart during systole and reaches maximum velocity through the arteries, shouldn't that result in lower blood pressure as per the Bernoulli principle, which you explained in Lesson 8?

yankzaddict

Hydrostatic Pressure - Medical Applications (Fluid Mechanics - Lesson 4)

Hydrostatic Pressure - Medical Applications (Fluid Mechanics - Lesson 4)

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