School of Sport and Exercise Sciences, University of Birmingham, Edgbaston, Birmingham B15 2TT, UK.
J Physiol. 2010 Apr 1;588(Pt 7):1117-27. doi: 10.1113/jphysiol.2009.185470. Epub 2010 Feb 8.
Isolated activation of metabolically sensitive skeletal muscle afferents (muscle metaboreflex) using post-exercise ischaemia (PEI) following handgrip partially maintains exercise-induced increases in arterial blood pressure (BP) and muscle sympathetic nerve activity (SNA), while heart rate (HR) declines towards resting values. Although masking of metaboreflex-mediated increases in cardiac SNA by parasympathetic reactivation during PEI has been suggested, this has not been directly tested in humans. In nine male subjects (23 +/- 5 years) the muscle metaboreflex was activated by PEI following moderate (PEI-M) and high (PEI-H) intensity isometric handgrip performed at 25% and 40% maximum voluntary contraction, under control (no drug), parasympathetic blockade (glycopyrrolate) and beta-adrenergic blockade (metoprolol or propranalol) conditions, while beat-to-beat HR and BP were continuously measured. During control PEI-M, HR was slightly elevated from rest (+3 +/- 2 beats min(-1)); however, this HR elevation was abolished with beta-adrenergic blockade (P < 0.05 vs. control) but augmented with parasympathetic blockade (+8 +/- 2 beats min(-1), P < 0.05 vs. control and beta-adrenergic blockade). The HR elevation during control PEI-H (+9 +/- 3 beats min(-1)) was greater than with PEI-M (P < 0.05), and was also attenuated with beta-adrenergic blockade (+4 +/- 2 beats min(-1), P < 0.05 vs. control), but was unchanged with parasympathetic blockade (+9 +/- 2 beats min(-1), P > 0.05 vs. control). BP was similarly increased from rest during PEI-M and further elevated during PEI-H (P < 0.05) in all conditions. Collectively, these findings suggest that the muscle metaboreflex increases cardiac SNA during PEI in humans; however, it requires a robust muscle metaboreflex activation to offset the influence of cardiac parasympathetic reactivation on heart rate.
单独刺激代谢敏感的骨骼肌传入神经(肌肉代谢反射),采用运动后缺血(PEI)的方法,在手握运动后可以部分维持运动引起的动脉血压(BP)和肌肉交感神经活动(SNA)的增加,同时心率(HR)向休息时的值下降。虽然有人提出,在 PEI 期间,代谢反射介导的心脏 SNA 增加会被副交感神经的再激活所掩盖,但这尚未在人类中得到直接验证。在 9 名男性受试者(23 ± 5 岁)中,在控制(无药物)、副交感神经阻滞(格隆溴铵)和β-肾上腺素能阻滞(美托洛尔或普萘洛尔)条件下,采用中等强度(PEI-M)和高强度(PEI-H)的等长握力(分别为 25%和 40%的最大自主收缩)进行 PEI 后,激活肌肉代谢反射,同时连续测量心率和血压。在控制的 PEI-M 期间,心率从休息时略微升高(+3 ± 2 次/分钟);然而,这种心率升高在β-肾上腺素能阻滞时被消除(与对照相比,P < 0.05),但在副交感神经阻滞时增加(+8 ± 2 次/分钟,与对照和β-肾上腺素能阻滞相比,P < 0.05)。在控制的 PEI-H 期间(+9 ± 3 次/分钟)的心率升高大于 PEI-M(P < 0.05),并且在β-肾上腺素能阻滞时也被减弱(+4 ± 2 次/分钟,与对照相比,P < 0.05),但在副交感神经阻滞时没有变化(+9 ± 2 次/分钟,与对照相比,P > 0.05)。在所有条件下,PEI-M 和 PEI-H 都会使血压从休息时升高(P < 0.05)。总之,这些发现表明,在人类中,肌肉代谢反射会在 PEI 期间增加心脏 SNA;然而,它需要强烈的肌肉代谢反射激活来抵消心脏副交感神经再激活对心率的影响。