Ted Meeuwsen scite author profile

The goal of this study was to investigate to what extent intermittent exposure to altitude in a hypobaric chamber can improve performance at sea-level. Over a 10-day period, elite male triathletes trained for 2 h each day on a cycle ergometer placed in a hypobaric chamber. Training intensity was 60-70% of the heart rate reserve. Eight subjects trained at a simulated altitude of 2.500 m (hypoxia group), the other eight remained at sea-level (sea-level group). Baseline measurements were done on a cycle ergometer at sea-level, which included an incremental test until exhaustion and a Wingate Anaerobic Test. Nine days after training in hypoxia, significant increases were seen in all important parameters of the maximal aerobic as well as the anaerobic test. A significant increase of 7.0% was seen in the mean maximal oxygen uptake per kilogram body weight (VO2max), and the mean maximal power output per kilogram body weight (Wmax) increased significantly by 7.4%. The mean values of both mean power per kilogram body weight and peak power per kilogram body weight increased significantly by 5.0%, and the time-to-peak decreased significantly by 37.7%. In the sea-level group, no significant changes were seen in the abovementioned parameters of both the maximal aerobic and the maximal anaerobic test at the second post-test. The results of this study indicate that intermittent hypobaric training can improve both the aerobic and the anaerobic energy-supply systems.

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The effect of intermittent training in hypobaric hypoxia on sea-level exercise: a cross-over study in humans

Hendriksen¹,

Meeuwsen²

2003

Eur J Appl Physiol

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The purpose of this study was to examine the effect of intermittent training in a hypobaric chamber on physical exercise at sea level. Over a 10 day period, 16 male triathletes trained for 2 h each day on a cycle ergometer placed in a hypobaric chamber. Training intensity was at 60%-70% of the heart rate reserve. There were 8 subjects who trained at a simulated altitude of 2,500 m, the other 8 trained at sea level. A year later, a cross-over study took place. Baseline measurements were made on a cycle ergometer at sea level, which included an incremental test until exhaustion and a Wingate Anaerobic Test. Altogether, 12 subjects completed the cross-over study. At 9 days after training in hypoxia, significant increases were seen in maximal power output (.W(max))(5.2%), anaerobic mean power (4.1%), and anaerobic peak power (3.8%). A non-significant increase in maximal oxygen uptake (.VO(2max)) of 1.9% was observed. At 9 days after training at sea level, no significant changes were seen in .W(max)(2.1%), .VO(2max) (2.0%), anaerobic mean power (0.2%) and anaerobic peak power (0.2%). When comparing the results of the two training regimes, the anaerobic mean power was the only variable that showed a significantly larger increase as a result of training at altitude. And, although the differences in percentage change between the two training protocols were not significant, they were substantial for as well as for anaerobic peak power. The results of this study indicate that intermittent hypobaric training can improve the anaerobic energy supplying system, and also, to a lesser extent, the aerobic system. It can be concluded that the overall results of the cross-over study showed predominantly improvements in the anaerobic metabolism at variance with the previous study of our own group, where the relative .VO(2max) and .W(max) increased by 7%.

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Fitness to Fly Testing in Patients with Congenital Heart and Lung Disease

Spoorenberg

Oord²,

Meeuwsen³

et al. 2016

aerosp med hum perform

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Sea-Level Performance Is Enhanced by Acute Intermittent Hypobaric Hypoxia

Meeuwsen¹,

Hendriksen²,

Holewijn³

1999

Medicine & Science in Sports & Exercise

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Finger Temperatures In Hypoxia And Normoxia In A Neutral And Cold Environment

Es¹,

Meeuwsen²,

Smeets³

et al. 2009

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Ted Meeuwsen

Training-induced increases in sea-level performance are enhanced by acute intermittent hypobaric hypoxia

The effect of intermittent training in hypobaric hypoxia on sea-level exercise: a cross-over study in humans

Fitness to Fly Testing in Patients with Congenital Heart and Lung Disease

Sea-Level Performance Is Enhanced by Acute Intermittent Hypobaric Hypoxia

Finger Temperatures In Hypoxia And Normoxia In A Neutral And Cold Environment

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