J. W. Lee, J. Ko, C. Ju, and H. K. Eltzschig, Hypoxia signaling in human diseases and therapeutic targets, Exp. Mol. Med, vol.51, pp.51-68, 2019.

G. P. Millet, Therapeutic use of exercising in hypoxia: promises and limitations, Front. Physiol, vol.7, p.224, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01793512

T. V. Serebrovskaya, Intermittent hypoxia: cause of or therapy for systemic hypertension?, Exp. Biol. Med, vol.233, pp.627-650, 2008.

T. Haider, Interval hypoxic training improves autonomic cardiovascular and respiratory control in patients with mild chronic obstructive pulmonary disease, J. Hypertens, vol.27, pp.1648-1654, 2009.

H. Y. Park, Exposure and exercise training in hypoxic conditions as a new obesity therapeutic modality: a mini review, J. Obes. Metab. Syndr, vol.27, pp.93-101, 2018.

M. Burtscher, Intermittent hypoxia increases exercise tolerance in elderly men with and without coronary artery disease, Int J. Cardiol, vol.96, pp.247-254, 2004.

S. W. Gorgens, Hypoxia in combination with muscle contraction improves insulin action and glucose metabolism in human skeletal muscle via the HIF-1alpha pathway, Diabetes, vol.66, pp.2800-2807, 2017.

R. Faiss, Significant molecular and systemic adaptations after repeated sprint training in hypoxia, PLoS ONE, vol.8, p.56522, 2013.

F. Brocherie, Repeated maximal-intensity hypoxic exercise superimposed to hypoxic residence boosts skeletal muscle transcriptional responses in elite team-sport athletes, Acta Physiol, vol.222, p.12851, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02108416

H. Hoppeler and M. Vogt, Hypoxia training for sea-level performance. Training high-living low, Adv. Exp. Med. Biol, vol.502, pp.61-73, 2001.