International audienceThe purpose of this study was to investigate the effects of high-intensity interval training (3 days/wk for 5 wk), provoking large changes in muscle lactate and pH, on changes in intracellular buffer capacity (j3min vitro), monocar- boxylate transporters (MCTs), and the decrease in muscle lactate and hydrogen ions (H+) after exercise in women. Before and after train- ing, biopsies of the vastus lateralis were obtained at rest and imme- diately after and 60 s after 45 s of exercise at 190% of maximal O2 uptake. Muscle samples were analyzed for ATP, phosphocreatine (PCr), lactate, and H+; MCT1 and MCT4 relative abundance and j3min vitro were also determined in resting muscle only. Training provoked a large decrease in po...
Environ. Exercise Physiol. 55(2): 365367,1983.-The purpose of this study was to evaluate the extent ...
This study aimed to examine the blood lactate and blood pH kinetics during high-intensity interval t...
In addition to a high aerobic fitness, the ability to buffer hydrogen ions (H+) may also be importan...
International audienceThe purpose of this study was to investigate the effects of high-intensity int...
International audienceThe aim of this study was to investigate the effects of an acute bout of high-...
and Jens Bangsbo. Effect of high-intensity exercise train-ing on lactate/H1 transport capacity in hu...
We examined changes in muscle buffer capacity (βmin vitro), and the lactate threshold (LT) after 5 w...
International audienceWe have previously reported an acute decrease in muscle buffer capacity (βm in...
Athletic performance relies heavily on the rate of ATP hydrolysis. Traditionally, the accumulation o...
Texte intégral en accès libre http://jap.physiology.org/cgi/content/full/98/3/804The present study i...
Ionic regulation is critical to muscle excitation, contraction and metabolism, and thus for muscle f...
Muscle H+ accumulation may be the primary causal factor in limiting high-intensity exercise (HIE) pe...
Bonen. Training intensity-dependent and tissue-specific in-creases in lactate uptake and MCT-1 in he...
The ability to metabolize or tolerate lactate and produce power simultaneously can be an important d...
Environ. Exercise Physiol. 55(2): 365367,1983.-The purpose of this study was to evaluate the extent ...
This study aimed to examine the blood lactate and blood pH kinetics during high-intensity interval t...
In addition to a high aerobic fitness, the ability to buffer hydrogen ions (H+) may also be importan...
International audienceThe purpose of this study was to investigate the effects of high-intensity int...
International audienceThe aim of this study was to investigate the effects of an acute bout of high-...
and Jens Bangsbo. Effect of high-intensity exercise train-ing on lactate/H1 transport capacity in hu...
We examined changes in muscle buffer capacity (βmin vitro), and the lactate threshold (LT) after 5 w...
International audienceWe have previously reported an acute decrease in muscle buffer capacity (βm in...
Athletic performance relies heavily on the rate of ATP hydrolysis. Traditionally, the accumulation o...
Texte intégral en accès libre http://jap.physiology.org/cgi/content/full/98/3/804The present study i...
Ionic regulation is critical to muscle excitation, contraction and metabolism, and thus for muscle f...
Muscle H+ accumulation may be the primary causal factor in limiting high-intensity exercise (HIE) pe...
Bonen. Training intensity-dependent and tissue-specific in-creases in lactate uptake and MCT-1 in he...
The ability to metabolize or tolerate lactate and produce power simultaneously can be an important d...
Environ. Exercise Physiol. 55(2): 365367,1983.-The purpose of this study was to evaluate the extent ...
This study aimed to examine the blood lactate and blood pH kinetics during high-intensity interval t...
In addition to a high aerobic fitness, the ability to buffer hydrogen ions (H+) may also be importan...