Given: Assume that in a particular capillary the pressure at the arteriolar end is 35 mmHg and it decreases linearly with distance to 15 mmHg at the venule end. Assume the capillary is 500 mm long. Assume further that the hydrostatic pressure in the ISF is 2 mm Hg and is constant. The oncotic (osmotic) pressure inside the capillary is 25 mm Hg and is constant. The oncotic pressure of the ISF is 3 mmHg. a. Is there a filtration or reabsorption of fluid at the venule end? b. What is the net driving force? (answer a and b)
Given: Assume that in a particular capillary the pressure at the arteriolar end is 35 mmHg and it decreases linearly with distance to 15 mmHg at the venule end. Assume the capillary is 500 mm long. Assume further that the hydrostatic pressure in the ISF is 2 mm Hg and is constant. The oncotic (osmotic) pressure inside the capillary is 25 mm Hg and is constant. The oncotic pressure of the ISF is 3 mmHg. a. Is there a filtration or reabsorption of fluid at the venule end? b. What is the net driving force? (answer a and b)
Biomedical Instrumentation Systems
1st Edition
ISBN:9781133478294
Author:Chatterjee
Publisher:Chatterjee
Chapter9: Instrumentation In Blood Circulation
Section: Chapter Questions
Problem 4P
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Given: Assume that in a particular capillary the pressure at the arteriolar end is 35 mmHg and it decreases linearly with distance to 15 mmHg at the venule end. Assume the capillary is 500 mm long. Assume further that the hydrostatic pressure in the ISF is 2 mm Hg and is constant. The oncotic (osmotic) pressure inside the capillary is 25 mm Hg and is constant. The oncotic pressure of the ISF is 3 mmHg.
a. Is there a filtration or reabsorption of fluid at the venule end?
b. What is the net driving force?
(answer a and b)
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