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Altitude Training Approaches

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Sleeping at altitude produces the increase in red blood cells, and training at low altitude provides optimum training benefits. This effect can be achieved by literally living at a high altitude and travelling to a lower level to train. However, this approach is also possible by using a hypoxia generator to reduce the level of oxygen in a tent. The downside to an altitude tent is that the quality of sleep can be significantly degraded.
===Intermittent Hypoxic Training===
Being exposed to low oxygen for short periods has been shown to provide similar additional benefits to beyond other altitude training approaches. The technique usually involves breathing air with reduced oxygen content for a few minutes, followed by breathing normal air for a few minutes, repeating for about an hour. shorter periods IHT can provide the increase in red blood cell count as longer periods, as well as improving oxygen delivery to the muscles. IHT is normally performed at rest rather than when training, See [[Intermittent Hypoxic Training]] and uses a pulse oximeter to verify the impact of the hypoxia. IHT uses lower oxygen content than other forms of altitude training.  IHT promises a number of advantages over other techniques. It does not reduce training intensity in the way that Live High, Train High does. It does not impair sleep in the way that an altitude tent does. The biggest advantage is that chemical based IHT can be obtained for much less than other systems.  The evidence for IHT is rather mixed. Some studies<ref name="EPO"/><ref name="acu"/><ref name="alto"/> show improvements with IHT type approaches, at least one well designed study<ref name="jack"/> showed no improvement. There are claims that the USSR<ref name="USSR"/> used IHT extensively. [[Intermittent Hypoxic Training 101]]
==See Also==
* [[Hypoxia Systems]]
* [[Book Review – Altitude Training and Athletic Performance]]
==References==<references><ref name="EPO">http://jap.physiology.org/cgi/content/abstract/73/3/837 Erythropoietin response to acute normobaric hypoxia in humans</ref><ref name="acu">http://jap.physiology.org/cgi/content/abstract/66/4/1785?ijkey=5bbdebe4e97a65aad9ea16d9d6a7f0c9de2d7dc0&keytype2=tf_ipsecsha Rate of erythropoietin formation in humans in response to acute hypobaric hypoxia</ref><ref name="alto">http://www.pharmapacific.com/images/AltoLab_Clinical_Research_Study.pdf Running performance * [[Intermittent Hypoxic Training]] and altitude exposure</ref><ref name="jack">http://jap.physiology.org/cgi/content/full/96/5/1800 [[Intermittent normobaric hypoxia does not alter performance or erythropoietic markers in highly trained distance runners</ref><ref name="USSR">http://www.ncbi.nlm.nih.gov/pubmed/12162864 Intermittent hypoxia research in the former soviet union and the commonwealth of independent States: history and review of the concept and selected applications.</ref>Hypoxic Training 101]]</references>* [[AltoLab]]