人类皮质吞咽通路的感觉运动调制
Sensorimotor modulation of human cortical swallowing pathways.
作者信息
Hamdy S, Aziz Q, Rothwell J C, Hobson A, Thompson D G
机构信息
University of Manchester Gastroenterology Unit, Hope Hospital, London, UK.
出版信息
J Physiol. 1998 Feb 1;506 ( Pt 3)(Pt 3):857-66. doi: 10.1111/j.1469-7793.1998.857bv.x.
Abstract
- Transcranial magnetic stimulation over motor areas of cerebral cortex in man can activate short latency bilateral cortical projections to the pharynx and oesophagus. In the present paper we investigate the interaction between pathways from each hemisphere and explore how activity in these pathways is modulated by afferent feedback from the face, pharynx and oesophagus. 2. Comparison of unilateral and bilateral stimulation (using interstimulus intervals (ISIs) of 1, 5 or 10 ms between shocks) showed spatial summation of responses from each hemisphere at an ISI of 1 ms, indicating that cortical efferents project onto a shared population of target neurones. Such summation was not evident at ISIs of 5 or 10 ms. There was little evidence for transcallosal inhibition of responses from each hemisphere, as described for limb muscles. 3. Single stimuli applied to the vagus nerve in the neck or the supraorbital nerve, which alone produce intermediate (onset 20-30 ms) and long (50-70 ms) latency reflex responses in the pharynx and oesophagus, were used to condition the cortical responses. Compared with rest, responses evoked by cortical stimulation were facilitated when they were timed to coincide with the late part of the reflex. The onset latency was reduced during both parts of the reflex response. No facilitation was observed with subthreshold reflex stimuli. 4. Single electrical stimuli applied to the pharynx or oesophagus had no effect on the response to cortical stimulation. However, trains of stimuli at frequencies varying from 0.2 to 10 Hz decreased the latency of the cortically evoked responses without consistently influencing their amplitudes. The effect was site specific: pharyngeal stimulation shortened both pharyngeal and oesophageal response latencies, whereas oesophageal stimulation shortened only the oesophageal response latencies. 5. Cortical swallowing motor pathways from each hemisphere interact and their excitability is modulated in a site-specific manner by sensory input. The latter may produce a mixture of excitation and inhibition at both brainstem and cortical levels.
摘要
- 对人类大脑皮层运动区进行经颅磁刺激,可激活至咽部和食管的短潜伏期双侧皮层投射。在本文中,我们研究了来自每个半球的通路之间的相互作用,并探讨这些通路中的活动是如何受到来自面部、咽部和食管的传入反馈调节的。2. 比较单侧和双侧刺激(电击之间的刺激间隔(ISI)为1、5或10毫秒)显示,在ISI为1毫秒时,每个半球的反应存在空间总和,这表明皮层传出纤维投射到共同的靶神经元群体上。在ISI为5或10毫秒时,这种总和不明显。几乎没有证据表明存在如肢体肌肉中所描述的胼胝体对每个半球反应的抑制作用。3. 对颈部迷走神经或眶上神经施加单次刺激,它们单独作用时会在咽部和食管产生中等潜伏期(起始20 - 30毫秒)和长潜伏期(50 - 70毫秒)的反射反应,用于调节皮层反应。与静息状态相比,当皮层刺激的时间与反射的后期部分一致时,皮层刺激诱发的反应得到促进。在反射反应的两个阶段,起始潜伏期均缩短。阈下反射刺激未观察到促进作用。4. 对咽部或食管施加单次电刺激对皮层刺激的反应没有影响。然而,频率在0.2至10赫兹之间变化的刺激序列会缩短皮层诱发反应的潜伏期,但对其幅度没有持续影响。这种效应具有部位特异性:咽部刺激缩短了咽部和食管反应的潜伏期,而食管刺激仅缩短了食管反应的潜伏期。5. 来自每个半球的皮层吞咽运动通路相互作用,其兴奋性通过感觉输入以部位特异性方式进行调节。后者可能在脑干和皮层水平产生兴奋和抑制的混合作用。
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