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首页> 美国卫生研究院文献>American Journal of Physiology - Heart and Circulatory Physiology >Integrative Cardiovascular Physiology and Pathophysiology: Muscle sympathetic nerve responses to passive and active one-legged cycling: insights into the contributions of central command
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Integrative Cardiovascular Physiology and Pathophysiology: Muscle sympathetic nerve responses to passive and active one-legged cycling: insights into the contributions of central command

机译:综合心血管生理学和病理生理学:肌肉交感神经对被动和主动单腿骑行自行车的反应:中央指挥部的贡献的见解

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The contribution of central command to the peripheral vasoconstrictor response during exercise has been investigated using primarily handgrip exercise. The purpose of the present study was to compare muscle sympathetic nerve activity (MSNA) responses during passive (involuntary) and active (voluntary) zero-load cycling to gain insights into the effects of central command on sympathetic outflow during dynamic exercise. Hemodynamic measurements and contralateral leg MSNA (microneurography) data were collected in 18 young healthy participants at rest and during 2 min of passive and active zero-load one-legged cycling. Arterial baroreflex control of MSNA burst occurrence and burst area were calculated separately in the time domain. Blood pressure and stroke volume increased during exercise (P < 0.0001) but were not different between passive and active cycling (P > 0.05). In contrast, heart rate, cardiac output, and total vascular conductance were greater during the first and second minute of active cycling (P < 0.001). MSNA burst frequency and incidence decreased during passive and active cycling (P < 0.0001), but no differences were detected between exercise modes (P > 0.05). Reductions in total MSNA were attenuated during the first (P < 0.0001) and second (P = 0.0004) minute of active compared with passive cycling, in concert with increased MSNA burst amplitude (P = 0.02 and P = 0.005, respectively). The sensitivity of arterial baroreflex control of MSNA burst occurrence was lower during active than passive cycling (P = 0.01), while control of MSNA burst strength was unchanged (P > 0.05). These results suggest that central feedforward mechanisms are involved primarily in modulating the strength, but not the occurrence, of a sympathetic burst during low-intensity dynamic leg exercise.>NEW & NOTEWORTHY Muscle sympathetic nerve activity burst frequency decreased equally during passive and active cycling, but reductions in total muscle sympathetic nerve activity were attenuated during active cycling. These results suggest that central command primarily regulates the strength, not the occurrence, of a muscle sympathetic burst during low-intensity dynamic leg exercise.
机译:在运动过程中,主要使用握力运动研究了中央命令对周围血管收缩反应的贡献。本研究的目的是比较被动(非自愿)和主动(自愿)零负荷循环过程中的肌肉交感神经活动(MSNA)反应,以了解动态锻炼过程中中央命令对交感神经流出的影响。血液动力学测量和对侧腿部MSNA(微神经造影术)数据收集于18名年轻健康参与者的静止和被动和主动零负荷单腿骑自行车2分钟内。在时域中分别计算了MSNA爆发发生和爆发面积的动脉压力反射控制。运动期间血压和中风量增加(P <0.0001),但被动和主动骑行之间无差异(P> 0.05)。相反,在主动骑行的第一分钟和第二分钟,心率,心输出量和总血管电导率更高(P <0.001)。在被动和主动骑行期间,MSNA爆发频率和发生率均降低(P <0.0001),但在运动模式之间未发现差异(P> 0.05)。与被动循环相比,在主动的第一分钟(P <0.0001)和第二分钟(P = 0.0004)期​​间,总MSNA的减少被衰减,这与MSNA突发幅度增加(分别为P = 0.02和P = 0.005)一致。主动期间MSNA爆发发生的动脉压力反射控制的敏感性低于被动循环(P = 0.01),而MSNA爆发强度的控制未改变(P> 0.05)。这些结果表明,中央前馈机制主要参与调节低强度动态腿部运动过程中交感神经爆发的强度,而不是其发生。> NEW&NOTEWORTHY 肌肉交感神经活动的猝发频率平均下降在被动和主动骑行期间,但总肌肉交感神经活动的减少在主动骑行期间减弱。这些结果表明,在低强度动态腿部锻炼过程中,中央指挥部主要调节肌肉交感神经爆发的强度,而不是其发生。

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