Overtraining syndrome (OTS) is a major concern among endurance athletes and is a leading cause in preventing them to perform for long periods. Intermittent exposure to hypoxia has been shown to be an effective way of improving perfor- mance without exercising. Aim of this pilot study was to evaluate intermittent hypoxia–hyperoxia training combined with light exercise as an intervention to facilitate athletes with OTS to restore their usual performance level. Thirty-four track and field athletes were recruited: 15 athletes with OTS volunteered to partic- ipate and undertook a conditioning programme consisting of repeated exposures to hypoxia (O2 at 10%) and hyperoxia (O2 at 30%) (6–8 cycles, total time 45 min–1 h), three times a week, delivered 15–2 h after a low-intensity exercise session (2 bouts of 30 min, running at 50% of VO2max with 10 min rest between bouts) over 4 weeks. Nineteen healthy track and field athletes volunteered to par- ticipate as a control group and followed their usual training schedule. Measure- ments before and after the intervention included exercise capacity, analysis of heart rate variability and hematological parameters. In athletes with OTS, a 4-week light exercise combined with intermittent hypoxia–hyperoxia training improved exercise performance (1919  269 W versus 1708  448 W in exercise capacity test, P = 001). Heart rate variability analysis revealed an improved sympatho-parasympathetic index (low frequency/high frequency ratio, 801  751 before and 145  171 after, P = 0007). Hematological parame- ters were unchanged. Our pilot study showed that intermittent hypoxia–hyperoxia training and low-intensity exercise can facilitate functional recovery among ath- letes with OTS in a relatively short time.

© 2015 Scandinavian Society of Clinical Physiology and Nuclear Medicine. Published by John Wiley & Sons Ltd

Year: 2015

 Susta D, Glazachev O, Dudnik E

Source: Clin Physiol Funct Imaging

PMID: 26443707