Add to ORKGIt is unresolved how pulmonary ventilation (VE) is influenced by normoxic 30% nitrous oxide (N2O) breathing and hyperthermia during supramaximal intensity exercise. It was hypothesized that normoxic N2O will suppress and hyperthermia will increase exercise ventilation, timing and ventilatory drive during supramaximal intensity exercise. Seven college-aged males volunteered for 4 separate 30 s Wingate cycle ergometer tests. The studies included a 2 x 2 design with factors of Thermal State (normothermia or hyperthermia) and Gas Type (Air or normoxic 30% N2O). A significant interaction (F=8.4, p=0.03) between these 2 factors for VE was explained by a VE from 85 ± 27 L/min (p=0.06) during normothermia with N2O to a VE of 104 ± 23 L/min in h...
This thesis investigated the interaction between steady state hypoxia and passive hyperthermia on hu...
C.E. Frisiras, M.I. Schoeberlein, C.I. Nicol, J. Chapman, K.E. Coffman University of Puget Sound, Ta...
To gain an insight into the origin of the phase I ventilatory response to exercise (ph I) in humans,...
EFFECTS OF NORMOXIC NITROUS OXIDE AND HYPERTHERMIA ON PERFORMANCE DURING A WINGATE TEST ...
While working at depth air breathing commercial divers experience nitrogen narcosis and they can bec...
Hyperthermia potentiates the influence of CO(2) on pulmonary ventilation (.V(E)). It remains to be r...
The independent and combined effects of hypoxia and elevated esophageal temperature (T,,) were inves...
Static and dynamic body temperatures, hypercapnia, and exercise state were assessed for their influe...
PURPOSE: The purpose of this pilot study was to establish a protocol to assess the effects of passiv...
Background: Despite extensively research of the effect of exercise upon fractional exhaled nitric ox...
In order to investigate the effects of acute hypoxia and accompanying hypocapnia on the ventilatory ...
The consensus in the literature is that exercise-induced hypoxemia (EIH) occurs secondary to ventil...
This study tested the hypothesis that live high, train low (LHTL) would increase submaximal exercise...
1. The hypothesis that the ventilatory resistance to O2 flow (RV) does limit maximal O2 consumption ...
Data availability statement: The data that support the findings of this study are available from the...
This thesis investigated the interaction between steady state hypoxia and passive hyperthermia on hu...
C.E. Frisiras, M.I. Schoeberlein, C.I. Nicol, J. Chapman, K.E. Coffman University of Puget Sound, Ta...
To gain an insight into the origin of the phase I ventilatory response to exercise (ph I) in humans,...
EFFECTS OF NORMOXIC NITROUS OXIDE AND HYPERTHERMIA ON PERFORMANCE DURING A WINGATE TEST ...
While working at depth air breathing commercial divers experience nitrogen narcosis and they can bec...
Hyperthermia potentiates the influence of CO(2) on pulmonary ventilation (.V(E)). It remains to be r...
The independent and combined effects of hypoxia and elevated esophageal temperature (T,,) were inves...
Static and dynamic body temperatures, hypercapnia, and exercise state were assessed for their influe...
PURPOSE: The purpose of this pilot study was to establish a protocol to assess the effects of passiv...
Background: Despite extensively research of the effect of exercise upon fractional exhaled nitric ox...
In order to investigate the effects of acute hypoxia and accompanying hypocapnia on the ventilatory ...
The consensus in the literature is that exercise-induced hypoxemia (EIH) occurs secondary to ventil...
This study tested the hypothesis that live high, train low (LHTL) would increase submaximal exercise...
1. The hypothesis that the ventilatory resistance to O2 flow (RV) does limit maximal O2 consumption ...
Data availability statement: The data that support the findings of this study are available from the...
This thesis investigated the interaction between steady state hypoxia and passive hyperthermia on hu...
C.E. Frisiras, M.I. Schoeberlein, C.I. Nicol, J. Chapman, K.E. Coffman University of Puget Sound, Ta...
To gain an insight into the origin of the phase I ventilatory response to exercise (ph I) in humans,...