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Zones of pulmonary blood flow

Zones of pulmonary blood flow


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High Yield Notes
14 pages

Zones of pulmonary blood flow

6 flashcards

USMLE® Step 1 style questions USMLE

1 questions

A researcher is conducting an experiment on pulmonary physiology. He is studying differences in blood flow and ventilation in various regions of the lung when a patient is sitting upright. A diagram of the lung is shown below. Which of the following best describes the region of the lung with the highest V/Q ratio and the corresponding physiological significance?  


Content Reviewers:

Rishi Desai, MD, MPH

Air from the environment enters through the nostrils, goes through the airways, and finally reaches the alveoli, the tiny air-filled sacs in the lungs.

Here, gas is exchanged between the alveoli and blood flowing through the capillaries that surround each alveolus.

And blood flows from the higher pressured arteriole (Pa) to the lower pressured venule (Pv).

Now, PA, which is the pressure within the alveoli of the lungs is relatively constant throughout the lungs.

At the end of expiration, it’s equal to atmospheric pressure, which is 0 centimeters of water (0 cmH2O) And although Pa is always greater than Pv , their values change at different vertical levels within the lungs.

Consider the fact that some blood vessels are more vertical while others are more horizontal. The horizontal ones are unaffected by gravity, but the more vertical ones are affected by gravity.

The analogy would be a cylinder filled with water - the cylinder represents a blood vessel and the water would be the blood.

As you add more and more water, the height (H) of the water increases. And when the column is completely filled, the pressure (P) from the water that’s exerted on the bottom of the cylinder, or the hydrostatic pressure, is equal to the density of water (p) multiplied by gravitational acceleration (g), multiplied by the height of the column of water above it.

Blood in vertical blood vessels in upright lungs have similar hydrostatic effects.

At the apex of the lung, Pa and Pv are relatively low, at the base of the lung, Pa and Pv are relatively high, and in the middle of the lung, Pa and Pv are somewhere in between.

Now because PA is constant, the relationship of Pa and Pv with respect to PA changes. And it’s the relationship between these three that determines the zones of the lungs.

In zone 3, at the base of the lungs, Pa is higher than Pv, and both are higher than PA.

In zone 3, blood flows through the capillaries because of the pressure difference between Pa and Pv.


The zones of pulmonary blood flow refer to the three anatomical regions of the lung that differ in their perfusion and ventilation. Zone 1 is the region closest to the apex of the lung where alveolar pressure is highest, and pulmonary blood flow is limited. Zone 2 is the intermediate region where the pulmonary blood flow is determined by the balance between the alveolar pressure and the pulmonary artery pressure. Zone 3 is the region closest to the base of the lung where pulmonary blood flow is the highest due to the high pulmonary artery pressure.

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