Erschienen in:
01.02.2006 | Original Article
Enhanced cerebral CO2 reactivity during strenuous exercise in man
verfasst von:
P. Rasmussen, H. Stie, B. Nielsen, L. Nybo
Erschienen in:
European Journal of Applied Physiology
|
Ausgabe 3/2006
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Abstract
Light and moderate exercise elevates the regional cerebral blood flow by ~20% as determined by ultrasound Doppler sonography (middle cerebral artery mean flow velocity; MCA V
mean). However, strenuous exercise, especially in the heat, appears to reduce MCA V
mean more than can be accounted for by the reduction in the arterial CO2 tension (P
aCO2). This study evaluated whether the apparently large reduction in MCA V
mean at the end of exhaustive exercise relates to an enhanced cerebrovascular CO2 reactivity. The CO2 reactivity was evaluated in six young healthy male subjects by the administration of CO2 as well as by voluntary hypo- and hyperventilation at rest and during exercise with and without hyperthermia. At rest, P
aCO2 was 5.1±0.2 kPa (mean ± SEM) and MCA V
mean 50.7±3.8 cm s−1 and the relationship between MCA V
mean and P
aCO2 was linear (double-log slope 1.1±0.1). However, the relationship became curvilinear during exercise (slope 1.8±0.1; P<0.01 vs. rest) and during exercise with hyperthermia (slope 2.3±0.3; P<0.05 vs. control exercise). Accordingly, the cerebral CO2 reactivity increased from 30.5±2.7% kPa−1 at rest to 61.4±10.1% kPa−1 during exercise with hyperthermia (P<0.05). At exhaustion P
aCO2 decreased 1.1±0.2 kPa during exercise with hyperthermia, which, with the determined cerebral CO2 reactivity, accounted for the 28±10% decrease in MCA V
mean. The results suggest that during exercise changes in cerebral blood flow are dominated by the arterial carbon dioxide tension.