人体剧烈运动期间大脑二氧化碳反应性增强。

Enhanced cerebral CO2 reactivity during strenuous exercise in man.

作者信息

Rasmussen P, Stie H, Nielsen B, Nybo L

机构信息

Department of Human Physiology, Institute of Exercise and Sports Sciences, University of Copenhagen, Denmark.

出版信息

Eur J Appl Physiol. 2006 Feb;96(3):299-304. doi: 10.1007/s00421-005-0079-3. Epub 2005 Nov 12.

DOI:10.1007/s00421-005-0079-3

PMID:16284788

Abstract

Light and moderate exercise elevates the regional cerebral blood flow by approximately 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 CO(2) tension (P(a)CO(2)). This study evaluated whether the apparently large reduction in MCA V(mean) at the end of exhaustive exercise relates to an enhanced cerebrovascular CO(2) reactivity. The CO(2) reactivity was evaluated in six young healthy male subjects by the administration of CO(2) as well as by voluntary hypo- and hyperventilation at rest and during exercise with and without hyperthermia. At rest, P(a)CO(2) 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(a)CO(2 )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 CO(2) 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(a)CO(2) decreased 1.1+/- 0.2 kPa during exercise with hyperthermia, which, with the determined cerebral CO(2) 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.

摘要

通过超声多普勒超声检查（大脑中动脉平均血流速度；MCA V(mean)）测定，轻度和中度运动可使局部脑血流量增加约20%。然而，剧烈运动，尤其是在高温环境下，似乎会使MCA V(mean)的降低幅度超过动脉血二氧化碳分压（P(a)CO(2)）降低所能解释的范围。本研究评估了力竭运动结束时MCA V(mean)明显大幅降低是否与脑血管二氧化碳反应性增强有关。通过在静息状态以及运动（有无热应激）时给予二氧化碳以及进行自主低通气和过度通气，对6名年轻健康男性受试者的二氧化碳反应性进行了评估。静息时，P(a)CO(2)为5.1±0.2 kPa（均值±标准误），MCA V(mean)为50.7±3.8 cm s(-1)，MCA V(mean)与P(a)CO(2)之间的关系呈线性（双对数斜率为1.1±0.1）。然而，运动期间（斜率为1.8±0.1；与静息相比P<0.01）以及热应激运动期间（斜率为2.3±0.3；与对照运动相比P<0.05），这种关系变为曲线关系。因此，脑二氧化碳反应性从静息时的30.5±2.7% kPa(-1)增加至热应激运动期间的61.4±10.1% kPa(-1)（P<0.05）。在热应激运动中力竭时，P(a)CO(2)下降1.1±0.2 kPa，根据测定的脑二氧化碳反应性，这可解释MCA V(mean)下降28±10%。结果表明，运动期间脑血流量的变化主要受动脉血二氧化碳分压的影响。

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人体剧烈运动期间大脑二氧化碳反应性增强。

Enhanced cerebral CO2 reactivity during strenuous exercise in man.

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