Repeatedsprint training in hypoxia in international rRugby union players ,
, Int J Sports Physiol Perform, pp.1-15, 2018.
Acute physiological and performance responses to repeated sprints in varying degrees of hypoxia, J Sci Med Sport, vol.17, pp.399-403, 2014. ,
Effects of repeated-sprint training in hypoxia on tennis-specific performance in well-trained players, Sports medicine international open, vol.2, pp.123-132, 2018. ,
Shock microcycle of repeated-sprint training in hypoxia and tennis performance: case study in a rookie professional player, Int J Sports Sci Coaching, vol.13, pp.723-728, 2018. ,
High-intensity intermittent training in hypoxia: a double-blinded, placebocontrolled field study in youth football players, J Strength Cond Res, vol.29, pp.226-237, 2015. ,
Effects of rRepeated-sprint training in hypoxia on sea-level performance: A meta-analysis, Sports Med, vol.47, pp.1651-1660, 2017. ,
Repeated maximal-intensity hypoxic exercise superimposed to hypoxic residence boosts skeletal muscle transcriptional responses in elite team-sport athletes, Acta Physiol (Oxf), vol.222, p.12989, 2018. ,
Psychophysiological responses to repeated-sprint training in normobaric hypoxia and normoxia, Int J Sports Physiol Perform, vol.12, pp.115-123, 2017. ,
Live High-Train Low and High" Hypoxic training improves team-sport performance, Med Sci Sports Exerc, vol.47, pp.2140-2149, 2015. ,
Compensatory vasodilatation during hypoxic exercise: mechanisms responsible for matching oxygen supply to demand, J Physiol, vol.590, pp.6321-6326, 2012. ,
Nitric oxide contributes to the augmented vasodilatation during hypoxic exercise, J Physiol, vol.588, pp.373-385, 2010. ,
Maximal oxygen uptake at sea level and at 3,090-m altitude in high school champion runners, J Appl Physiol, vol.30, pp.854-859, 1971. ,
Advancing hypoxic training in team sports: from intermittent hypoxic training to repeated sprint training in hypoxia, Br J Sports Med, vol.47, pp.45-50, 2013. ,
Significant molecular and systemic adaptations after repeated sprint training in hypoxia, PLoS One, vol.8, p.56522, 2013. ,
Repeated double-poling sprint training in hypoxia by competitive cross-country skiers, Med Sci Sports Exerc, vol.47, pp.809-817, 2015. ,
Repeated-sprint training in hypoxia induced by voluntary hypoventilation improves running repeated-sprint ability in rugby players, Eur J Sport Sci, vol.18, pp.504-512, 2018. ,
Effects of low-resistance/high-repetition strength training in hypoxia on muscle structure and gene expression, Pflugers Arch, vol.446, pp.742-751, 2003. ,
Repeated sprint training in normobaric hypoxia, Br J Sports Med, vol.47, pp.74-79, 2013. ,
Hemoglobin mass response to simulated hypoxia "blinded" by noisy measurement?, J Appl Physiol, vol.112, pp.1797-1798, 1985. ,
Effects of a 12-day maximal shuttle-run shock microcycle in hypoxia on soccer specific performance and oxidative stress, Appl Physiol Nutr Metab, vol.40, pp.842-845, 2015. ,
Physiological factors associated with declining repeated sprint performance in hypoxia, J Strength Cond Res, vol.33, pp.211-216, 2019. ,
Shuttle-run sprint training in hypoxia for youth elite soccer players: a pilot study, J Sports Sci Med, vol.13, pp.731-735, 2014. ,
Effects of altitude/hypoxia on single-and multiple-sprint performance: A comprehensive review, Sports Med, vol.47, pp.1931-1949, 2017. ,
No additional benefit of repeat-sprint training in hypoxia than in normoxia on sea-level repeat-sprint ability, J Sports Sci Med, vol.14, pp.681-688, 2015. ,
Hypoxic repeat sprint training improves rugby player's repeated sprint but not endurance performance, Front Physiol, vol.8, p.24, 2017. ,
Human skeletal muscle sympathetic nerve activity, heart rate and limb haemodynamics with reduced blood oxygenation and exercise, J Physiol, vol.551, pp.635-647, 2003. ,
Do male athletes with already high initial haemoglobin mass benefit from 'live high-train low' altitude training?, Exp Physiol, vol.103, pp.68-76, 2018. ,
Muscle tissue adaptations to hypoxia, J Exp Biol, vol.204, pp.3133-3139, 2001. ,
Impact of 5 days of sprint training in hypoxia on performance and muscle energy substances, Int J Sports Med, vol.38, pp.983-991, 2017. ,
Effect of training in hypoxia on repeated sprint performance in female athletes, Springerplus, vol.4, p.310, 2015. ,
Impact of six consecutive days of sprint training in hypoxia on performance in competitive sprint runners, J Strength Cond Res, vol.33, pp.36-43, 2019. ,
Supramaximal intensity hypoxic exercise in mice: feasibility and vascular function assessment, J Vis Exp, vol.145, 2019. ,
Living high-training low": effect of moderate-altitude acclimatization with low-altitude training on performance, J Appl Physiol, vol.83, pp.102-112, 1997. ,
Control of microvascular oxygen pressures in rat muscles comprised of different fibre types, J Physiol, vol.563, pp.903-913, 2005. ,
Is live high-train low altitude training relevant for elite athletes? Flawed analysis from inaccurate data, Br J Sports Med, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-02545462
Therapeutic use of exercising in hypoxia: Promises and limitations, Frontiers in Physiology, section Exercise Physiology, vol.7, p.224, 2016. ,
Hypoxic conditions and exercise-to-rest ratio are likely paramount, Sports Med, vol.42, pp.1081-1083, 2012. ,
Combining hypoxic methods for peak performance, Sports Med, vol.40, pp.1-25, 2010. ,
No improved performance with repeatedsprint training in hypoxia versus normoxia: A double-blind and crossover study, Int J Sports Physiol Perform, vol.12, pp.161-167, 2017. ,
Short-term hypoxic exposure and training improve maximal anaerobic running test performance, J Strength Cond Res, vol.32, pp.181-188, 2018. ,
Is live high-train low altitude training relevant for elite athletes with already high total hemoglobin mass?, J Med Sci Sports, vol.22, pp.303-305, 2012. ,
Altitude training in elite swimmers for sea level performance ,
, Med Sci Sports Exerc, vol.47, pp.1965-1978, 2015.
Effects of a standardized ergometer training program at three different altitudes, J Appl Physiol, vol.27, pp.840-847, 1969. ,
Relationship between changes in haemoglobin mass and maximal oxygen uptake after hypoxic exposure, Br J Sports Med, vol.47, pp.26-30, 2013. ,
Repeated-sprint training in hypoxia induced by voluntary hypoventilation in swimming ,
, Int J Sports Physiol Perform, vol.12, pp.329-335, 2017.
Adaptations in muscle oxidative capacity, fiber size, and oxygen supply capacity after repeated-sprint training in hypoxia combined with chronic hypoxic exposure, J Appl Physiol, vol.124, pp.1403-1412, 1985. ,
Distinct effects of repeated-sprint training in normobaric hypoxia and beta-Alanine supplementation, J Am Coll Nutr, vol.38, pp.149-161, 2019. ,
Hemoglobin mass and aerobic performance at moderate altitude in elite athletes, Adv Exp Med Biol, vol.903, pp.357-374, 2016. ,
Cardiovascular responses during hypoventilation at exercise, Int J Sports Med, vol.32, pp.438-445, 2011. ,
Cerebral and muscle oxygenation during repeated shuttle run sprints with hypoventilation, Int J Sports Med, 2019. ,
Moderate exercise in hypoxia induces a greater arterial desaturation in trained than untrained men, Scand J Med Sci Sports, vol.17, pp.431-436, 2007. ,
Acute effects of repeated cycling sprints in hypoxia induced by voluntary hypoventilation, Eur J Appl Physiol, vol.117, pp.2433-2443, 2017. ,
Exercise training in normobaric hypoxia in endurance runners. III. Muscular adjustments of selected gene transcripts, J Appl Physiol, vol.100, pp.1258-1266, 2006. ,