Ventilation-perfusion mismatch pathophysiology: Difference between revisions
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==Overview== | ==Overview== | ||
Any | Any discrepancy between blood flow and [[ventilation]] is called V/Q mismatch. | ||
==Pathogenesis== | ==Pathogenesis== | ||
In the upright position of the normal [[lung]], the amount of [[ventilation]] and [[perfusion]] is higher in the [[Base of lung|base of the lung]] compare to [[Apex of lung|apex of the lung]] | In the upright position of the normal [[lung]], the amount of [[ventilation]] and [[perfusion]] is higher in the [[Base of lung|base of the lung]] compare to [[Apex of lung|apex of the lung]]. Although ventilation and perfusion are low in the apex of the lung, the perfusion is lower than ventilation in the apex. So, the V/Q is higher in the apex of the lung compare to the base . In a normal lung V/Q is 0.8 which means 4 liters of oxygen and 5 liters of blood transfer in the lung per minute. V/Q mismatch is one of the common reason of hypoxemia in patients with [[lung]] disease like [[Obstructive lung disease|obstructive lung]] diseases, pulmonary vascular diseases, and [[Interstitial lung disease|interstitial diseases]] . Usually hypoxemia due to V/Q mismatch will resolve by [[Oxygen therapy|oxygen therapy.]] | ||
In normal condition when there is a low ventilation, the body tries to keep this ratio in a normal range by restricting the perfusion in that specific area of the lung. This unique mechanism is called hypoxic pulmonary vasoconstriction. If this process continues for a long time it can cause pulmonary hypertension . | In normal condition when there is a low ventilation, the body tries to keep this ratio in a normal range by restricting the perfusion in that specific area of the lung. This unique mechanism is called hypoxic pulmonary vasoconstriction. If this process continues for a long time it can cause pulmonary hypertension . | ||
==Associated Conditions== | ==Associated Conditions== | ||
Some conditions that cause decrease in V/Q are: | Some conditions that cause decrease in V/Q are: | ||
* [[Bronchitis]] | * [[Bronchitis]] | ||
* [[Asthma]] | * [[Asthma]] | ||
Revision as of 02:13, 13 November 2018
Template:Ventilation-perfusion mismatch
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Aida Javanbakht, M.D.
Overview
Any discrepancy between blood flow and ventilation is called V/Q mismatch.
Pathogenesis
In the upright position of the normal lung, the amount of ventilation and perfusion is higher in the base of the lung compare to apex of the lung. Although ventilation and perfusion are low in the apex of the lung, the perfusion is lower than ventilation in the apex. So, the V/Q is higher in the apex of the lung compare to the base . In a normal lung V/Q is 0.8 which means 4 liters of oxygen and 5 liters of blood transfer in the lung per minute. V/Q mismatch is one of the common reason of hypoxemia in patients with lung disease like obstructive lung diseases, pulmonary vascular diseases, and interstitial diseases . Usually hypoxemia due to V/Q mismatch will resolve by oxygen therapy.
In normal condition when there is a low ventilation, the body tries to keep this ratio in a normal range by restricting the perfusion in that specific area of the lung. This unique mechanism is called hypoxic pulmonary vasoconstriction. If this process continues for a long time it can cause pulmonary hypertension .
Associated Conditions
Some conditions that cause decrease in V/Q are:
Some conditions that cause increase in V/Q are:
Genetics
The association between V/Q mismatch and genetic depends on the etiology of the mismatch. For example ORMDL3 and GSDML genes play a role in causing asthma .
Gross Pathology
The gross pathology depends on the exact reason for the V/Q mismatch.
Microscopic Pathology
The microscopic pathology depends on the exact reason for the V/Q mismatch. For example in asthma there are extracellular Charcot-Leyden crystals and increased mucosal goblet cells.