Abstract
This pilot study aimed (a) to evaluate the effects of eccentric exercise training at low and moderate altitudes on physical fitness in pre-diabetic men and (b) to establish whether or not oxidative stress levels and antioxidant status were associated with performance improvements. In this crossover trial, five pre-diabetic men conducted nine downhill walking sessions (3 days/week, 3 consecutive weeks) at low altitude (from 1360 to 850 m) and one year later at moderate altitude (from 2447 to 2000 m). Exercise testing and the determination of parameters of oxidative stress and antioxidant capacity were performed pre- and post-training. The biological antioxidant activity of plasma (BAP) increased after eccentric training at moderate altitude (p < 0.001), whereas diacron reactive oxygen metabolites (dROMs) remained unchanged. Also, the BAP/dROMs ratio increased only after training at moderate-altitude training (p = 0.009). Maximum power output improved after training at low altitude and the changes were significantly related to baseline BAP/dROMs ratio (r = 0.90). No decrease was seen for fasting plasma glucose. Eccentric exercise training in pre-diabetic men improved performance only when performed at low altitude and this improvement was positively related to the baseline BAP/dROMs ratio. In contrast, 3 weeks of eccentric exercise training increased BAP levels and the BAP/dROMs ratio only at moderate altitude without improving the performance. Thus, one might speculate that the BAP/dROMs ratio has to increase before performance improvements occur at moderate altitude.
Highlights
Diabetes mellitus type II is a major public health problem with more than 25 million people in Europe affected by the disease [1]
Maximum power output improved after training at low altitude and the changes were significantly related to baseline biological antioxidant activity of plasma (BAP)/diacron reactive oxygen metabolites (dROMs) ratio (r = 0.90)
We hypothesized that eccentric exercise training performed at moderate altitude will improve performance more than at low altitude and that redox changes may at least partly explain the expected differences
Summary
Diabetes mellitus type II is a major public health problem with more than 25 million people in Europe affected by the disease [1]. The disorder results from interactions between genetic, environmental and behavioral factors [2,3,4]. The latter may be considered a modifiable risk factor and mainly denotes poor health behavior in terms of a high caloric diet and physical inactivity. It has been persistently shown that reducing caloric intake and being physically active or performing endurance and strength training on a regular basis to improve physical fitness prevent diabetes mellitus type II development [5] and ameliorate glycemic control [6,7,8]. It was recently reported that eccentric exercise is an effective training method to increase muscle strength and endurance, but may
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