| Abstract: | Abstract The effect of intermittent hypoxia on sea-level endurance performance was assessed by using hypoxic tents to simulate the live high-train low approach to altitude training. Eleven male sub-elite competitive runners and triathletes participated in a crossover study of usual training (control) and usual training with altitude exposure (altitude). Altitude treatment consisted of 25±3?d (mean±SD) of sleeping in tents for 8.1±0.6?h.d?1, progressing from a simulated altitude of 2500?m to 3500?m above sea level. Washout period between control and altitude treatments was 4?wk. Three treadmill runs to exhaustion lasting ~2, ~4 and ~8?min were completed 7 and 12?d after control and altitude treatments. Times for standard competition distances (800, 1500 and 3000?m), were predicted using a log-log model, improved by 1.0% (90% confidence limits, ±1.3%), 1.4% (±1.2%) and 1.9% (±1.5%), respectively. Improvements were greater in the six athletes with an I allele for angiotensin converting enzyme (ACE): 2.3% (±1.5%), 2.2% (±1.5%), and 2.1%, (±2.1%), respectively. Effects of simulated altitude on hemoglobin concentration were unclear. Altitude exposure simulated with hypoxic tents is likely to enhance performance substantially in middle-distance endurance running events, especially for individuals with an I allele of the ACE gene. |
