Bent Leah R, Bolton Philip S, Macefield Vaughan G
Department of Human Health and Nutritional Sciences, University of Guelph, Guelph, ON, Canada.
Exp Brain Res. 2006 Oct;174(4):701-11. doi: 10.1007/s00221-006-0515-6. Epub 2006 May 24.
There is controversy as to whether the vestibulosympathetic reflexes demonstrated in experimental animals actually exist in human subjects. While head-down neck flexion and off-vertical axis rotation can increase muscle sympathetic nerve activity (MSNA) in awake subjects, we recently showed that bipolar galvanic vestibular stimulation (GVS) does not. However, it is possible that our stimuli (2 mA, 1 s)-although capable of causing strong postural and occulomotor responses-were too brief. To address this issue we activated vestibular afferents using continuous sinusoidal (0.5-0.8 Hz, 60-100 cycles, +/-2 mA) bipolar binaural GVS in 11 seated subjects. Sinusoidal GVS evoked robust vestibular illusions of "rocking in a boat" or "swinging from side to side." Cross-correlation analysis revealed a cyclic modulation of MSNA ranging from 31 to 86% across subjects (mean +/- SE 58 +/- 5%), with total MSNA increasing by 156 +/- 19% (P = 0.001). Furthermore, we documented de novo synthesis of sympathetic bursts that were coupled to the sinusoidal input, such that two bursts-rather than the obligatory single burst-could be generated within a cardiac interval. This demonstrates that the human vestibular apparatus exerts a potent facilitatory influence on MSNA that potentially operates independently of the baroreceptor system.
实验动物中所证实的前庭交感反射在人类受试者中是否实际存在存在争议。虽然头向下颈部屈曲和非垂直轴旋转可增加清醒受试者的肌肉交感神经活动(MSNA),但我们最近发现双极电刺激前庭刺激(GVS)并不会。然而,我们的刺激(2 mA,1 s)——尽管能够引起强烈的姿势和眼球运动反应——可能过于短暂。为了解决这个问题,我们在11名坐位受试者中使用连续正弦(0.5 - 0.8 Hz,60 - 100个周期,+/-2 mA)双耳塞式GVS激活前庭传入神经。正弦GVS诱发了强烈的“在船中摇晃”或“左右摆动”的前庭错觉。互相关分析显示,受试者的MSNA呈周期性调制,范围为31%至86%(平均±标准误58±5%),总MSNA增加了156±19%(P = 0.001)。此外,我们记录到与正弦输入耦合的交感神经爆发的从头合成,使得在一个心动周期内可以产生两个爆发——而不是必须的单个爆发。这表明人类前庭器官对MSNA施加了强大的促进作用,这种作用可能独立于压力感受器系统发挥作用。
