{"title":"Fitness and therapeutic potential of intermittent hypoxia training: a matter of dose.","authors":"T V Serebrovska, Z O Serebrovska, E Egorov","doi":"10.15407/fz62.03.078","DOIUrl":null,"url":null,"abstract":"<p><p>The introduction of different methods of intermittent hypoxic training (IHT) into fitness, sports, military\nand medical practice has raised a lot of questions about the most beneficial regimens of such treatment\nand their optimal instrumental implementation. Low doses of hypoxia might not be sufficient stimuli to\nmobilize adaptive mechanisms, while severe or prolonged hypoxia may provoke dangerous pathological\nprocesses. In this review, we pay attention to narrow practical question of the most effective and convenient\ntechnology of IHT implementation, notably the inhalation of hypoxic gas mixtures. Data strongly suggest\nthat in humans the training with 15-13% inhaled oxygen (FiO2) at various time characteristics does not\nprovide marked positive changes. Short-term daily sessions consisting 3-4 bouts of 5-7 min exposures to\n12-10% FiO2 alternating with equal durations of normoxia for 2-3 weeks have been shown as a most\nbeneficial without maladaptive consequences for fitness and treatment of some diseases. More severe or\nlonger intermittent hypoxia protocols must be accompanied by strict monitoring of blood oxygen saturation\n(SpO2), electrocardiogram, breathing pattern and arterial blood pressure in order to avoid unexpected\nundesirable individual reactions. For sports purposes, the reduction of oxygen content to individually\ntolerable level for some minutes is justified as far as it maximizes benefits. However, such regimen requires\npreliminary diagnostics of individual hypoxic tolerance and cardio-respiratory reactivity as well as rigorous\nmonitoring of vital functions during IHT and good feedback device. The use of oxygen concentrations below\n12% for treatment of diseases, especially in children and the elderly, are required substantial additional\nresearch. Recently, a new mode of adaptive training was explored, which combines periods of hypoxia\n(12-10% FiO2) and hyperoxia (30-35% FiO2). Limited evidences suggest that such regime can reduce the\ntime of recovery periods, that is shorten the duration of sessions. However, there is still no strong comparative\nevidence for humans that this method is much more efficient than hypoxic-normoxic mode. We appeal to all\nscientists working in the field of IHT not to hide their negative results but publish all observations in the open\npress. It will make a significant contribution in developing of common guidelines for IHT implementation\nto improve public health of our Planet.</p>","PeriodicalId":73031,"journal":{"name":"Fiziolohichnyi zhurnal (Kiev, Ukraine : 1994)","volume":"62 3","pages":"78-91"},"PeriodicalIF":0.0000,"publicationDate":"2016-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"19","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Fiziolohichnyi zhurnal (Kiev, Ukraine : 1994)","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.15407/fz62.03.078","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 19
Abstract
The introduction of different methods of intermittent hypoxic training (IHT) into fitness, sports, military
and medical practice has raised a lot of questions about the most beneficial regimens of such treatment
and their optimal instrumental implementation. Low doses of hypoxia might not be sufficient stimuli to
mobilize adaptive mechanisms, while severe or prolonged hypoxia may provoke dangerous pathological
processes. In this review, we pay attention to narrow practical question of the most effective and convenient
technology of IHT implementation, notably the inhalation of hypoxic gas mixtures. Data strongly suggest
that in humans the training with 15-13% inhaled oxygen (FiO2) at various time characteristics does not
provide marked positive changes. Short-term daily sessions consisting 3-4 bouts of 5-7 min exposures to
12-10% FiO2 alternating with equal durations of normoxia for 2-3 weeks have been shown as a most
beneficial without maladaptive consequences for fitness and treatment of some diseases. More severe or
longer intermittent hypoxia protocols must be accompanied by strict monitoring of blood oxygen saturation
(SpO2), electrocardiogram, breathing pattern and arterial blood pressure in order to avoid unexpected
undesirable individual reactions. For sports purposes, the reduction of oxygen content to individually
tolerable level for some minutes is justified as far as it maximizes benefits. However, such regimen requires
preliminary diagnostics of individual hypoxic tolerance and cardio-respiratory reactivity as well as rigorous
monitoring of vital functions during IHT and good feedback device. The use of oxygen concentrations below
12% for treatment of diseases, especially in children and the elderly, are required substantial additional
research. Recently, a new mode of adaptive training was explored, which combines periods of hypoxia
(12-10% FiO2) and hyperoxia (30-35% FiO2). Limited evidences suggest that such regime can reduce the
time of recovery periods, that is shorten the duration of sessions. However, there is still no strong comparative
evidence for humans that this method is much more efficient than hypoxic-normoxic mode. We appeal to all
scientists working in the field of IHT not to hide their negative results but publish all observations in the open
press. It will make a significant contribution in developing of common guidelines for IHT implementation
to improve public health of our Planet.
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