Exercise training improves exercise capacity (peakVO2), which is closely related to long-term survival in cardiac patients. However, it remains unclear which type and intensity of exercise is most effective for improving exercise tolerance and body weight. Individual studies suggest that aerobic interval training (AIT) might increase peakVO2 more in this population.status: publishe
BACKGROUND: In a previous meta-analysis including nine trials comparing aerobic interval training wi...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...
Exercise training improves exercise capacity (peakVO2), which is closely related to long-term surviv...
Exercise training improves exercise capacity (peakVO2), which is closely related to long-term surviv...
Exercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is an important...
Introduction: Exercise training improves aerobic exercise capacity (peak VO2), which is related to l...
Exercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is an important...
Background Exercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is a...
Aerobic interval training (AIT) and aerobic continuous training (ACT) both improve physical fitness ...
Coronary artery disease (CAD) is the progressive narrowing of the arteries supplying the heart muscl...
AbstractBackgroundExercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), whi...
BACKGROUND: High aerobic capacity is inversely related to cardiovascular disease morbidity and morta...
BackgroundExercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is th...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...
BACKGROUND: In a previous meta-analysis including nine trials comparing aerobic interval training wi...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...
Exercise training improves exercise capacity (peakVO2), which is closely related to long-term surviv...
Exercise training improves exercise capacity (peakVO2), which is closely related to long-term surviv...
Exercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is an important...
Introduction: Exercise training improves aerobic exercise capacity (peak VO2), which is related to l...
Exercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is an important...
Background Exercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is a...
Aerobic interval training (AIT) and aerobic continuous training (ACT) both improve physical fitness ...
Coronary artery disease (CAD) is the progressive narrowing of the arteries supplying the heart muscl...
AbstractBackgroundExercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), whi...
BACKGROUND: High aerobic capacity is inversely related to cardiovascular disease morbidity and morta...
BackgroundExercise-based cardiac rehabilitation increases peak oxygen uptake (peak VO2), which is th...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...
BACKGROUND: In a previous meta-analysis including nine trials comparing aerobic interval training wi...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...
Interval training (IT) may induce physiological adaptations superior to those achieved with conventi...