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C J Gore

Showing results (61-70 of 68) with videos related to

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Journal of Science and Medicine in Sport|October 23, 1998
Altitude training at 2690m does not increase total haemoglobin mass or sea level VO2max in world champion track cyclistsC J Gore, A Hahn, A Rice, et al.
European Journal of Applied Physiology|September 21, 2007
The effect of acute simulated moderate altitude on power, performance and pacing strategies in well-trained cyclistsSally A Clark, P C Bourdon, W Schmidt, et al.
Respiration Physiology|September 29, 2000
Arterial hypoxaemia in endurance athletes is greater during running than cyclingA J Rice, G C Scroop, A T Thornton, et al.
Scandinavian Journal of Medicine & Science in Sports|April 3, 2016
Live high, train low - influence on resting and post-exercise hepcidin levelsA D Govus, P Peeling, C R Abbiss, et al.
Journal of Science and Medicine in Sport|August 4, 2005
Sleep in athletes undertaking protocols of exposure to nocturnal simulated altitude at 2650 mT A Kinsman, C J Gore, A G Hahn, et al.
Acta Physiologica Scandinavica|December 12, 2001
Live high:train low increases muscle buffer capacity and submaximal cycling efficiencyC J Gore, A G Hahn, R J Aughey, et al.
European Journal of Applied Physiology|August 26, 2006
Interspersed normoxia during live high, train low interventions reverses an early reduction in muscle Na+, K +ATPase activity in well-trained athletesR J Aughey, S A Clark, C J Gore, et al.
European Journal of Applied Physiology and Occupational Physiology|January 1, 1997
Reduced performance of male and female athletes at 580 m altitudeC J Gore, S C Little, A G Hahn, et al.
Pageof 7

Showing results (61-70 of 68) with videos related to

Sort By:
Pageof 7
You have reached the last page of results.This site can display upto 68 results.
Journal of Science and Medicine in Sport|October 23, 1998
Altitude training at 2690m does not increase total haemoglobin mass or sea level VO2max in world champion track cyclistsC J Gore, A Hahn, A Rice, et al.
European Journal of Applied Physiology|September 21, 2007
The effect of acute simulated moderate altitude on power, performance and pacing strategies in well-trained cyclistsSally A Clark, P C Bourdon, W Schmidt, et al.
Respiration Physiology|September 29, 2000
Arterial hypoxaemia in endurance athletes is greater during running than cyclingA J Rice, G C Scroop, A T Thornton, et al.
Scandinavian Journal of Medicine & Science in Sports|April 3, 2016
Live high, train low - influence on resting and post-exercise hepcidin levelsA D Govus, P Peeling, C R Abbiss, et al.
Journal of Science and Medicine in Sport|August 4, 2005
Sleep in athletes undertaking protocols of exposure to nocturnal simulated altitude at 2650 mT A Kinsman, C J Gore, A G Hahn, et al.
Acta Physiologica Scandinavica|December 12, 2001
Live high:train low increases muscle buffer capacity and submaximal cycling efficiencyC J Gore, A G Hahn, R J Aughey, et al.
European Journal of Applied Physiology|August 26, 2006
Interspersed normoxia during live high, train low interventions reverses an early reduction in muscle Na+, K +ATPase activity in well-trained athletesR J Aughey, S A Clark, C J Gore, et al.
European Journal of Applied Physiology and Occupational Physiology|January 1, 1997
Reduced performance of male and female athletes at 580 m altitudeC J Gore, S C Little, A G Hahn, et al.
Pageof 7