We hypothesised that vagal withdrawal and increased venous return interact in determining the rapid cardiac output (CO) response (phase I) at exercise onset. We used lower body negative pressure (LBNP) to increase blood distribution to the heart by muscle pump action and reduce resting vagal activity. We expected a larger increase in stroke volume (SV) and smaller for heart rate (HR) at progressively stronger LBNP levels, therefore CO response would remain unchanged. To this aim ten young, healthy males performed a 50 W exercise in supine position at 0 (Control), −15, −30 and −45 mmHg LBNP exposure. On single beat basis, we measured HR, SV, and CO. Oxygen uptake was measured breath-by-breath. Phase I response amplitudes were obtained applyi...
PURPOSE: Investigate the impact of muscle sympathetic activity changes on the hyperemic response to ...
In man, tolerance to an orthostatic stress varies widely. Compensatory cardiovascular responses to o...
BACKGROUND: Nonhypotensive lower body negative pressure (LBNP) induces a reflex increase in forearm ...
We hypothesised that vagal withdrawal and increased venous return interact in determining the rapid ...
We hypothesised that vagal withdrawal and increased venous return interact in determining the rapid ...
We tested the hypothesis that vagal withdrawal and increased venous return interact in determining t...
PURPOSE: The kinetics of cardiac output (CO) at the onset of exercise is characterized by two phases...
The phase I cardiovascular response to exercise implies an instantaneous cardiac output (Q̇) increas...
We tested the hypothesis that vagal withdrawal plays a role in the rapid (phase I) cardiopulmonary r...
Anti-gravity treadmills facilitate locomotion by lower-body positive pressure (LBPP). Effects on car...
Purpose: The purpose of this study was to assess cardiovascular responses in young males when expose...
If indeed vagal withdrawal determines the rapid response to exercise (phase I), the a large reductio...
Whilst both cardiac output (CO) and total peripheral resistance (TPR) determine mean arterial blood ...
We tested the vagal withdrawal concept for heart rate (HR) and cardiac output (CO) kinetics upon mod...
male volunteers (mean age 28.1 yr) underwent maximal exercise performance testing and lower body neg...
PURPOSE: Investigate the impact of muscle sympathetic activity changes on the hyperemic response to ...
In man, tolerance to an orthostatic stress varies widely. Compensatory cardiovascular responses to o...
BACKGROUND: Nonhypotensive lower body negative pressure (LBNP) induces a reflex increase in forearm ...
We hypothesised that vagal withdrawal and increased venous return interact in determining the rapid ...
We hypothesised that vagal withdrawal and increased venous return interact in determining the rapid ...
We tested the hypothesis that vagal withdrawal and increased venous return interact in determining t...
PURPOSE: The kinetics of cardiac output (CO) at the onset of exercise is characterized by two phases...
The phase I cardiovascular response to exercise implies an instantaneous cardiac output (Q̇) increas...
We tested the hypothesis that vagal withdrawal plays a role in the rapid (phase I) cardiopulmonary r...
Anti-gravity treadmills facilitate locomotion by lower-body positive pressure (LBPP). Effects on car...
Purpose: The purpose of this study was to assess cardiovascular responses in young males when expose...
If indeed vagal withdrawal determines the rapid response to exercise (phase I), the a large reductio...
Whilst both cardiac output (CO) and total peripheral resistance (TPR) determine mean arterial blood ...
We tested the vagal withdrawal concept for heart rate (HR) and cardiac output (CO) kinetics upon mod...
male volunteers (mean age 28.1 yr) underwent maximal exercise performance testing and lower body neg...
PURPOSE: Investigate the impact of muscle sympathetic activity changes on the hyperemic response to ...
In man, tolerance to an orthostatic stress varies widely. Compensatory cardiovascular responses to o...
BACKGROUND: Nonhypotensive lower body negative pressure (LBNP) induces a reflex increase in forearm ...
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