@article{ref1,
title="Comparative evaluation of pressure chamber training and high altitude adaptation to hypoxia in humans",
journal="Kosmicheskaia Biologiia i Aviakosmicheskaia Meditsina",
year="1982",
author="Katkov, A. Iu and Chabdarova, R. N. and Pravetskiĭ, N. V. and Vtoryĭ, S. A. and Lenskiĭ, V. V.",
volume="16",
number="1",
pages="74-77",
abstract="It was demonstrated that a 3-day pressure chamber training may increase the maximum tolerable &quot;altitude&quot; at rest from 8,600-8,900 m (depending on the onset rate of hypoxia) to 9,600 m. After pressure chamber training the maximum tolerable &quot;altitude&quot; increased from 8,200 m to 9,200 m, when exercising in a bicycle ergometer at 200 kgm/min and continuously ascending at a rate of 20 m/sec. A similar antihypoxic effect was also provided by a 7-day high altitude adaptation. Using polarographic measurements of oxygen tension in the skin, it was found that adaptation to hypoxia induced a more pronounced oxygen decrease at high altitudes. This can be attributed to a more distinct blood redistribution, i. e., a better blood supply to the vital organs at the expense of peripheral tissues.<p /><p>Language: ru</p>",
language="ru",
issn="0321-5040",
doi="",
url="http://dx.doi.org/"
}