Early studies supported the concept that vertical gradients increased ventilation and perfusion in the lung, yielding close V A /Q matching. Ventilation is also affected by the frequency, duration, and rate of breathing. The lung is influenced by internal and external factors that affect ventilation/perfusion (V A /Q) relationships, including gravity and the fractal design of the pulmonary blood vessels and airways. Efficient gas exchange requires close matching of regional ventilation and perfusion. The lung functions primarily to exchange oxygen (O 2 ) and carbon dioxide between inspired air and blood. It also produces more uniform distribution of stress and strain of lung tissue. Prone position improves V A /Q matching by more evenly distributing V A and Q. However, at high levels, it increases dead space ventilation and hypercarbia. Ventilation/perfusion ratios less than 1 are responsible for hypoxemia in asthmatics, but no correlation exists between V A /Q mismatch and the degree of small airway obstruction.ĭuring mechanical ventilation, positive end-expiratory pressure decreases the proportion of shunt in PARDS. The primary V A /Q abnormality in pediatric acute respiratory distress syndrome (PARDS) is intrapulmonary shunt. Perfusion is affected more by gravitational forces than ventilation but is of secondary importance in Q and V A. Gravity increases pulmonary blood flow and ventilation to the base of the lung. The fractal design of the lung and gravitational effects on the flow of air and blood affect V A /Q matching. Gas exchange is optimized when pulmonary perfusion (Q) and alveolar ventilation (V A ) are tightly matched.
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