交感神经的急性激活会减弱对腿部被动运动的高充血和血管扩张反应

Research Square Pub Date : 2024-05-10 DOI:10.21203/rs.3.rs-4356062/v1

Brady E Hanson, Joshua F Lee, R. Garten, Zachary Barrett O'Keefe, G. Layec, Bradley A Ruple, D. Wray, Russell S. Richardson, J. Trinity

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引用次数: 0

摘要

摘要肌肉交感神经活动（MSNA）的增强会导致血管舒张能力受损以及与衰老和心血管疾病相关的血管功能障碍。在腿部被动运动（PLM）过程中，MSNA 升高对血管舒张反应的贡献尚未得到充分研究。本研究试图验证一个假设，即 MSNA 升高会降低健康年轻男性（n = 11，25 ± 2 岁）在被动腿部运动时的血管舒张反应。在最大自主收缩量的 25% (ExPECO 25%) 和 40% (ExPECO 40%) 下进行 2 分钟的等长手握（HG）运动后，采用运动后循环闭塞（PECO）来逐步调动代谢感受器并增强 MSNA。对照试验在不进行 PECO（ExCON 25% 和 ExCON 40%）的情况下进行，以考虑 HG 运动引起的变化。运动停止 2 分钟后进行 PLM，评估中心和外周血液动力学。通过腓总神经显微神经电图直接记录 MSNA（n = 8）。在 ExPECO 25% 和 ExPECO 40% 试验期间，MSNA 的测量值（即爆发发生率）分别增加（+ 15 ± 5 爆发/100 bpm）和（+ 22 ± 4 爆发/100 bpm），而在 ExCON 试验期间则恢复到 HG 前的水平。通过 PLM 期间腿部血管传导变化评估的血管舒张在 ExPECO 25% 和 ExPECO 40% 试验期间分别减少了 16% 和 44%。这些研究结果表明，MSNA 的升高会减弱对 PLM 的血管舒张反应，而 PLM 期间血管舒张减少的程度与交感兴奋的程度有关。

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Acute sympathetic activation blunts the hyperemic and vasodilatory response to passive leg movement

Abstract Heightened muscle sympathetic nerve activity (MSNA) contributes to impaired vasodilatory capacity and vascular dysfunction associated with aging and cardiovascular disease. The contribution of elevated MSNA to the vasodilatory response during passive leg movement (PLM) has not been adequately addressed. This study sought to test the hypothesis that elevated MSNA diminishes the vasodilatory response to PLM in healthy young males (n = 11, 25 ± 2 year). Post exercise circulatory occlusion (PECO) following 2 min of isometric handgrip (HG) exercise performed at 25% (ExPECO 25%) and 40% (ExPECO 40%) of maximum voluntary contraction was used to incrementally engage the metaboreceptors and augment MSNA. Control trials were performed without PECO (ExCON 25% and ExCON 40%) to account for changes due to HG exercise. PLM was performed 2 min after the cessation of exercise and central and peripheral hemodynamics were assessed. MSNA was directly recorded by microneurography in the peroneal nerve (n = 8). Measures of MSNA (i.e., burst incidences) increased during ExPECO 25% (+ 15 ± 5 burst/100 bpm) and ExPECO 40% (+ 22 ± 4 burst/100 bpm) and returned to pre-HG levels during ExCON trials. Vasodilation, assessed by the change in leg vascular conductance during PLM, was reduced by 16% and 44% during ExPECO 25% and ExPECO 40%, respectively. These findings indicate that elevated MSNA attenuates the vasodilatory response to PLM and that the magnitude of reduction in vasodilation during PLM is graded in relation to the degree of sympathoexcitation.

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