Add to ORKGAfter a short summary of the multifactorial models of maximal O2 consumption (VO2max) limitation, microgravity exposure is discussed as a convenient experimental condition to test these models. The following points are highlighted: 1) The decrease of (VO2max) in microgravity concerns specifically exercise performed in upright posture upon resumption of gravity exposure; 2) The decrease of (VO2max) after microgravity exposure has two components: one is fast and is related to cardiovascular adaptation, the other is slow and is related to the development of muscle atrophy; 3) (VO2max) does not decrease during microgravity or in supine posture upon resumption of gravity exposure, if the time in microgravity is sufficiently short; 4) cardiovascu...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
As the limits of human exploration expand farther into space, there becomes an increasing need to co...
The factors limiting VO2max in humans are analyzed according to a multifactorial model derived from ...
Maximal O(2) consumption (V(O)(2) max) is an index of integrated cardiopulmonary function. After hav...
The relationship between oxygen delivered (Qao2) and oxygen consumption (VO2) is remarkably constant...
Morin. Cardiovascular response to submaximal exercise in sustained microgravity. J. Appl. Physiol. 8...
In order to better understand and clarify the cardio-respiratory responses of humans to physical exe...
Exposure to real (space flight) or simulated microgravity (e.g., head–down tilt bed rest) induces re...
A model of the metabolic internal power (Ė(int)) during cycling, which includes the gravity accelera...
Microgravity adversely affects several physiological systems. As space exploration moves to extended...
Physiology in microgravity is a challenging field of research because of limited resources. Though h...
Physical training exposes the various systems of the body to potent physiologic stimuli. These stimu...
Prolonged periods in microgravity (μG) environments result in deconditioning of numerous physiologic...
The aim of this study was to characterizethe time course of maximal oxygen consumption (V'O2 max) ch...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
As the limits of human exploration expand farther into space, there becomes an increasing need to co...
The factors limiting VO2max in humans are analyzed according to a multifactorial model derived from ...
Maximal O(2) consumption (V(O)(2) max) is an index of integrated cardiopulmonary function. After hav...
The relationship between oxygen delivered (Qao2) and oxygen consumption (VO2) is remarkably constant...
Morin. Cardiovascular response to submaximal exercise in sustained microgravity. J. Appl. Physiol. 8...
In order to better understand and clarify the cardio-respiratory responses of humans to physical exe...
Exposure to real (space flight) or simulated microgravity (e.g., head–down tilt bed rest) induces re...
A model of the metabolic internal power (Ė(int)) during cycling, which includes the gravity accelera...
Microgravity adversely affects several physiological systems. As space exploration moves to extended...
Physiology in microgravity is a challenging field of research because of limited resources. Though h...
Physical training exposes the various systems of the body to potent physiologic stimuli. These stimu...
Prolonged periods in microgravity (μG) environments result in deconditioning of numerous physiologic...
The aim of this study was to characterizethe time course of maximal oxygen consumption (V'O2 max) ch...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
In simulated or actual microgravity, human and animal postural muscles undergo substantial atrophy: ...
As the limits of human exploration expand farther into space, there becomes an increasing need to co...
The factors limiting VO2max in humans are analyzed according to a multifactorial model derived from ...