In order to investigate the effects of acute hypoxia and accompanying hypocapnia on the ventilatory response at the onset of dynamic exercise, four healthy adult men performed 50W rectangular loads on a cycle-ergometer in normoxic (FIO = 0.21) and hypoxic (FIO = 0.11) conditions. No statistically significant differences in the initial ventilatory responses to exercise (both ΔVI and ΔVE assessed on a breath-by-breath basis) were found between eucapnic normoxia (PETO ≈ 95, PETCO≈ 42 Torr) and hypocapnic hypoxia (PETO≈ 45, PETCO≈35 Torr). The present findings support the contention that the neurogenic ventilatory drive at the onset of early exercise is independent from PO and PCO. © 1990, PHYSIOLOGICAL SOCIETY OF JAPAN. All rights reserved.
Effects of acute hypoxia on ventilatory response at the onset of submaximal exercise
Schena F.;
1990-01-01
Abstract
In order to investigate the effects of acute hypoxia and accompanying hypocapnia on the ventilatory response at the onset of dynamic exercise, four healthy adult men performed 50W rectangular loads on a cycle-ergometer in normoxic (FIO = 0.21) and hypoxic (FIO = 0.11) conditions. No statistically significant differences in the initial ventilatory responses to exercise (both ΔVI and ΔVE assessed on a breath-by-breath basis) were found between eucapnic normoxia (PETO ≈ 95, PETCO≈ 42 Torr) and hypocapnic hypoxia (PETO≈ 45, PETCO≈35 Torr). The present findings support the contention that the neurogenic ventilatory drive at the onset of early exercise is independent from PO and PCO. © 1990, PHYSIOLOGICAL SOCIETY OF JAPAN. All rights reserved.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.