Differential modeling of anaerobic and aerobic metabolism in the 800-m and 1,500-m run, J Appl Physiol, vol.107, pp.478-87, 2009. ,
The influence of pacing strategy on VO2 and supramaximal kayak performance, Med Sci Sports Exerc, vol.34, pp.1041-1047, 2002. ,
Highintensity exercise decreases muscle buffer capacity via a decrease in protein buffering in human skeletal muscle, Pflugers Arch, vol.458, pp.929-965, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-01587033
High-intensity exercise acutely decreases the membrane content of MCT1 and MCT4 and buffer capacity in human skeletal muscle, J Appl Physiol, vol.102, pp.616-637, 2007. ,
URL : https://hal.archives-ouvertes.fr/hal-01587015
The reliability of the i-STAT clinical portable analyser, J Sci Med Sport, vol.10, pp.135-175, 2007. ,
Limitations to exercise capacity and endurance: pulmonary system, Can J Appl Sport Sci, vol.7, pp.4-13, 1982. ,
Energy system contribution to 400-metre and 800-metre track running, J Sports Sci, vol.23, pp.299-307, 2005. ,
DOI : 10.1080/02640410410001730043
The slow component of oxygen uptake kinetics in humans, Exerc Sport Sci Rev, vol.24, pp.35-71, 1996. ,
Effect of inspiratory muscle fatigue on breathing pattern, J Appl Physiol, vol.59, pp.1152-1158, 1985. ,
A comparison of two methods for the calculation of accumulated oxygen deficit, J Sports Sci, vol.21, pp.151-162, 2003. ,
Energy system interaction and relative contribution during maximal exercise, Sports Med, vol.31, issue.10, pp.725-766, 2001. ,
DOI : 10.2165/00007256-200131100-00003
Accumulated oxygen deficit during supramaximal all-out and constant intensity exercice, Med Sci Sports Exerc, vol.27, pp.255-263, 1995. ,
Influence of training status on maximal accumulated oxygen deficit during all-out cycle exercise, Eur J Appl Physiol, vol.69, pp.321-330, 1994. ,
Aerobic and anaerobic contribution to Wingate test performance in sprint and middle-distance runners, Eur J Appl Physiol, vol.70, pp.58-65, 1995. ,
Velocity and stride parameters of world-class 400-meter athletes compared with less experienced runners, J Strength Cond Res, vol.23, issue.2, pp.524-555, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-01623755
Pacing strategy and VO 2 kinetics during a 1500-m race, Int J Sports Med, vol.29, pp.206-217, 2008. ,
URL : https://hal.archives-ouvertes.fr/hal-01623759
Time course of velocity and oxygen uptake during 1500-m realized with a strategy of best chronometric performance, New Studies in Athletics, vol.22, pp.115-137, 2007. ,
Fatigue and changes of ATP, creatine phosphate, and lactate during the 400-m sprint, Can J Sport Sci, vol.17, pp.141-145, 1992. ,
Acidosis inhibits oxidative phosphorylation in contracting human skeletal muscle in vivo, J Physiol, vol.553, pp.589-99, 2003. ,
Physical exercise after induced alkalosis (bicarbonate or tris-buffer), Eur J Appl Physiol, vol.37, pp.197-204, 1977. ,
DOI : 10.1007/bf00421775
Post-competition blood lactate concentrations as indicators of anaerobic energy expenditure during 400-m and 800m races, Eur J Appl Physiol, vol.61, pp.172-176, 1990. ,
Effects of maximal interval training on arterial oxygen desaturation and ventilation during heavy exercise, Jpn J Physiol, vol.49, pp.401-408, 1999. ,
HB (1999) pH after competitive rowing: the lower physiological range?, Acta Physiol Scand, vol.165, pp.113-117 ,
Cerebral desaturation during exercise reversed by O2 supplementation, Am J Physiol, vol.277, pp.1045-52, 1999. ,
Time course of anaerobic and aerobic energy expenditure during short-term exhaustive running in athletes, Int J Sport Med, vol.16, pp.522-527, 1995. ,
Changes in force production, blood lactate and EMG activity in the 400-m sprint, J Sports Sci, vol.10, pp.217-245, 1992. ,
Decrease in oxygen uptake at the end of a high-intensity submaximal running in humans, Int J Sport Med, vol.23, pp.298-304, 2002. ,
Determinants of oxygen uptake. Implications for exercise testing, Sports Med, vol.24, pp.308-328, 1997. ,
Muscle mass effect on arterial desaturation after maximal exercise, Med Sci Sports Exerc, vol.23, pp.1349-52, 1991. ,
Determination of accumulated oxygen deficit during a 400-m run, J Exerc Physiol-Online, vol.7, pp.77-83, 2004. ,
Influence of pacing strategy on oxygen uptake during treadmill middle-distance running, Int J Sports Med, vol.27, pp.37-42, 2006. ,
Energy system contribution during 200-to 1500-m running in highly trained athletes, Med Sci Sports Exerc, vol.33, pp.157-162, 2001. ,
Oxygen uptake response to an 800-m running race, Int J Sports Med, vol.26, pp.268-73, 2005. ,
URL : https://hal.archives-ouvertes.fr/hal-01587089
Post-competition blood lactate measurements applied to the 400-m Olympic record older: Ungerechts BE, 1988. ,
Human muscle metabolism during sprint running, J Appl Physiol, vol.61, pp.54-60, 1986. ,
Restricted postexercise pulmonary diffusion capacity does not impair maximal transport for O2, J Appl Physiol, vol.77, pp.2408-2412, 1994. ,
Velocity and stride parameters of world-class 400-meter athletes compared with less experienced runners, J Strength Cond Res, vol.23, pp.524-531, 2009. ,
URL : https://hal.archives-ouvertes.fr/hal-01623755
Oxygen uptake and blood metabolic responses to a supramaximal 400-m run, Eur J Appl Physiol, 2010. ,
Skeletal muscle metabolic and ionic adaptations during intense exercise following sprint training in humans, J Appl Physiol, vol.89, pp.1793-1803, 2000. ,
Relationships between postcompetition blood lactate concentration and average running velocity over 100m and 200-m races, Eur J Appl Physiol Occup Physiol, vol.68, pp.508-513, 1994. ,
Breakdown of high-energy phosphate compounds and lactate accumulation during short supramaximal exercise, Eur J Appl Physiol Occup Physiol, vol.56, pp.253-259, 1987. ,
DOI : 10.1007/bf00690889
Peak blood ammonia and lactate after submaximal, maximal and supramaximal exercise in sprinters and long-distance runners, Eur J Appl Physiol Occup Physiol, vol.60, pp.271-276, 1990. ,
DOI : 10.1007/bf00379395
Physical exercise after induced alkalosis (bicarbonate or tris-buffer), Eur J Appl Physiol, vol.37, pp.197-204, 1977. ,
DOI : 10.1007/bf00421775
Verhalten der anaeroben Ausdaer bei 400-m ,
, , vol.31, pp.225-230, 1980.
The effects of sprint (300 m) running on plasma lactate, uric acid, creatine kinase and lactate dehydrogenase in competitive hurdlers and untrained men, J Sports Med Phys Fitness, vol.41, pp.306-311, 2001. ,
Age and sex differences in blood lactate response to sprint running in elite master athletes, Can J Appl Physiol, vol.30, pp.647-665, 2005. ,
Post-competition blood lactate concentrations as indicators of anaerobic energy expenditure during 400-m and 800-m races, Eur J Appl Physiol, vol.61, pp.172-176, 1990. ,
Acid-base and electrolyte balance after exhausting exercise in endurance-trained and sprint-trained subjects, Acta Physiol Scand, vol.125, pp.97-109, 1985. ,
Anaerobic energy release in working muscle during 30 s to 3 min of exhausting bicycling, J Appl Physiol, vol.75, pp.1654-1660, 1993. ,
Arterial desaturation during exercise in man: implication for O2 uptake and work capacity, Scand J Med Sci Sports, vol.13, pp.339-358, 2003. ,
pH after competitive rowing: the lower physiological range?, Acta Physiol Scand, vol.165, pp.113-114, 1999. ,
Acclimatization to altitude and normoxic training improve 400-m running performance at sea level, J Sports Sci, vol.18, pp.411-419, 2000. ,
DOI : 10.1080/02640410050074340
Muscle mass effect on arterial desaturation after maximal exercise, Med Sci Sports Exerc, vol.23, pp.1349-1352, 1991. ,
Biochemical evaluation of running workouts used in training for the 400-m sprint, J Strength Cond Res, vol.23, pp.2266-2271, 2009. ,
Post-competition blood lactate concentration in highly ranked Australian swimmers Ungerechts BE, 1988. ,