Guanghao Shen, Kangning Xie, Juan Liu, Yongjie Shi, Tao Lei, Yue Tian, Chi Tang, Da Jing, Xiaoming Wu, Jianbao Zhang, Erping Luo


  1. [1]J.B. West, Commuting to high altitude: value ofoxygen enrichment of room air, High Altitude MedicineBiology, 3(2), 2002, 223-235.
  2. [2]M. Flueck, Plasticity of the muscle proteome toexercise at altitude, High Altitude Medicine Biology, 10(2),2009, 183-193.
  3. [3]J.A. Calbet, Chronic hypoxia increases blood pressureand noradrenaline spillover in healthy humans, theJournal of Physiology, 551(1), 2003, 379-386.
  4. [4]J.B. West, Oxygen enrichment of room air to improvewell-being and productivity at high altitude, InternationalJournal of Occupational and Environmental Health, 5(3),1999, 187-193.
  5. [5]J.B. West, Adventures in high-altitude physiology,Advances in Experimental Medicine and Biology, 588,2006, 7-16.
  6. [6]G.R. Rigby, HC Watson, Application of membrane gasseparation to oxygen enrichment of diesel engines,Journal Membrane Science, 87 (1), 1994, 159-169.
  7. [7]H. Byuna, B. Honga, B. Lee, The effect of oxygenenriched air obtained by gas separation membranes fromthe emission gas of diesel engines, Desalination, 193,2006, 73-81.
  8. [8]R. Svannshvili, Z. Sopromadze, Z Kakhabrishvili, TSvannshvili and L Maskhuliia, Athletes' physical workingcapacity, Georgian Medicine News, 166, 2009, 68-73.
  9. [9]M.D. Paola, M. Bozzali, L. Fadda, M. Musicco, U.Sabatini, & C. Caltagirone, Reduced oxygen due to high-altitude exposure relates to atrophy in motor-functionbrain areas, European Journal of Neurology, 15(10), 2008,1050-1057.
  10. [10]M. Maggiorini, Prevention and treatment of high-altitude pulmonary edema, Progress in Cardiovascular,52, 2010, 500-506.5. Conclusion

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