'Warm-up' activity is almost universally performed by athletes prior to their participation in training or competition. However, relatively little is known about the optimal intensity and duration for such exercise, or about the potential mechanisms primed by warm-up that might enhance performance. Recent studies demonstrate that vigorous warm-up exercise that normally results in an elevated blood and presumably muscle lactate concentration has the potential to increase the aerobic energy turnover in subsequent high-intensity exercise. The reduced oxygen deficit is associated with a reduction in both the depletion of the intramuscular phosphocreatine stores and the rate at which lactic acid is produced. Furthermore, the oxygen uptake 'slow ...
It is well known that physiological variables such as maximal oxygen uptake (VO2max), exercise econo...
Warming-up (WU) is a widely used preparation for training and competition. However, little is known ...
It has been suggested that the slower O2 uptake (VO2) kinetics observed when exercise is initiated f...
The aim of this study was to determine the influence of type of warm-up on metabolism and performanc...
This study investigated the effects of preliminary exercise (warm-up) on glycogen degradation and en...
Purpose: This study investigated whether active warm-up (AW) would increase muscle acetylcarnitine c...
The observation that prior heavy or severe-intensity exercise speeds overall oxygen uptake (V̇O2) ki...
Despite limited scientific evidence supporting their effectiveness, warm-up routines prior to exerci...
Exercise performance is partially limited by the functionality of the respiratory musculature. Train...
Purpose: This study investigated whether active warm-up (AW) would increase muscle acetylcarnitine c...
The present study examined how metabolic response and work capacity are affected by previous exhaust...
Warm-up (WU) is considered an essential part of exercise training in athletic, preventative and reha...
It has been suggested that the slower O2 uptake (VO2) kinetics observed when exercise is initiated f...
It is well known that physiological variables such as maximal oxygen uptake (VO2max), exercise econo...
Warming-up (WU) is a widely used preparation for training and competition. However, little is known ...
It has been suggested that the slower O2 uptake (VO2) kinetics observed when exercise is initiated f...
The aim of this study was to determine the influence of type of warm-up on metabolism and performanc...
This study investigated the effects of preliminary exercise (warm-up) on glycogen degradation and en...
Purpose: This study investigated whether active warm-up (AW) would increase muscle acetylcarnitine c...
The observation that prior heavy or severe-intensity exercise speeds overall oxygen uptake (V̇O2) ki...
Despite limited scientific evidence supporting their effectiveness, warm-up routines prior to exerci...
Exercise performance is partially limited by the functionality of the respiratory musculature. Train...
Purpose: This study investigated whether active warm-up (AW) would increase muscle acetylcarnitine c...
The present study examined how metabolic response and work capacity are affected by previous exhaust...
Warm-up (WU) is considered an essential part of exercise training in athletic, preventative and reha...
It has been suggested that the slower O2 uptake (VO2) kinetics observed when exercise is initiated f...
It is well known that physiological variables such as maximal oxygen uptake (VO2max), exercise econo...
Warming-up (WU) is a widely used preparation for training and competition. However, little is known ...
It has been suggested that the slower O2 uptake (VO2) kinetics observed when exercise is initiated f...