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The physiology of rowing with perspective on training and health
Stefanos Volianitis, Chie C Yoshiga,
Niels H Secher
Department of Anaesthesiology
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Keyphrases
Cerebral Blood Flow
100%
Fast-twitch muscle
100%
PubMed Database
50%
Blood Flow
50%
Cerebral Oxygenation
50%
Hypertrophy
50%
Metabolism
50%
Health Promotion
50%
Neuromuscular Function
50%
Cardiac Output
50%
Adaptation
50%
Arterial Oxygen Tension
50%
Sports Activity
50%
Skeletal muscle
50%
Pulmonary Function
50%
Oxygen Uptake
50%
Rowers
50%
Training Adaptation
50%
Oxygen Saturation
50%
Function Control
50%
Motor Control
50%
Blood pH
50%
Valsalva
50%
Pulmonary Diffusing Capacity
50%
Diffusion Limitation
50%
Slow Movement
50%
Metabolic Requirements
50%
Long Stroke
50%
Circulation Control
50%
Immunology and Microbiology
Brain Blood Flow
100%
Leg
100%
Slow Muscle Fiber
100%
Blood Flow
50%
Lifespan
50%
Arm
50%
Medline
50%
Lung Diffusion Capacity
50%
Arterial Oxygen Tension
50%
Skeletal Muscle
50%
Lung Function
50%
Oxygen Consumption
50%
Heart Output
50%
Blood Oxygenation
50%
Blood pH
50%
Arterial Oxygen Saturation
50%
Motor Control
50%
Medicine and Dentistry
Apoplexy
100%
Brain Blood Flow
50%
Leg
50%
Slow Muscle Fiber
50%
Arm
25%
Lifespan
25%
Oxygen Consumption
25%
Heart Output
25%
Blood Flow
25%
Lung Diffusion Capacity
25%
Skeletal Muscle
25%
Blood Oxygenation
25%
Oxygen Saturation
25%
Lung Function
25%
Blood pH
25%
Health Promotion
25%
Motor Control
25%
Nursing and Health Professions
Brain Blood Flow
100%
Blood Flow
50%
Medline
50%
Heart Output
50%
Blood pH
50%
Blood Oxygenation
50%
Lung Diffusion Capacity
50%
Aorta Root Prosthesis
50%
Arterial Oxygen Saturation
50%
Arterial Oxygen Tension
50%