Hanajima R, Ugawa Y, Terao Y, Sakai K, Furubayashi T, Machii K, Uesugi H, Mochizuki H, Kanazawa I
Department of Neurology, Graduate School of Medicine, University of Tokyo, Japan.
Electroencephalogr Clin Neurophysiol. 1998 Oct;109(5):391-6. doi: 10.1016/s0924-980x(98)00036-8.
To investigate whether the cortico-cortical inhibition originally reported for the human hand motor area is present in the motor cortex for sternocleidomastoid muscle (SCM) and to evaluate the amount of inhibition in spasmodic torticollis and essential tremor.
Subjects were 14 normal healthy volunteers, 10 patients with spasmodic torticollis and 5 with essential tremor involving neck muscles. A paired-pulse magnetic stimulation was performed for the SCMs and first dorsal interosseous muscles (FDIs).
In normal subjects, a subthreshold magnetic conditioning stimulus suppressed responses to a suprathreshold magnetic test stimulus when their interval was 1-5 ms in SCM. This indicates that the similar cortico-cortical inhibitory mechanism is present in the motor cortex for SCM as in the hand motor area. In the patients with spasmodic torticollis, the cortico-cortical inhibitory effect was reduced or absent in SCM, but normal in the FDI. In contrast, in patients with essential tremor, normal cortico-cortical inhibition was seen in both the SCM and FDI.
The cortico-cortical inhibitory mechanisms of the motor cortex for SCM can be studied by a paired-pulse magnetic stimulation method. Our result of reduced cortico-cortical inhibition in torticollis patients suggests abnormal excitability (hyperexcitable or disinhibited) of the motor cortex for SCM in spasmodic torticollis.
研究最初报道的人类手部运动区的皮质-皮质抑制是否存在于胸锁乳突肌(SCM)的运动皮质中,并评估痉挛性斜颈和特发性震颤中的抑制量。
受试者包括14名正常健康志愿者、10名痉挛性斜颈患者和5名涉及颈部肌肉的特发性震颤患者。对胸锁乳突肌和第一背侧骨间肌(FDI)进行配对脉冲磁刺激。
在正常受试者中,当间隔为1-5毫秒时,阈下磁条件刺激会抑制对阈上磁测试刺激的反应,这表明胸锁乳突肌的运动皮质中存在与手部运动区类似的皮质-皮质抑制机制。在痉挛性斜颈患者中,胸锁乳突肌的皮质-皮质抑制作用减弱或消失,但第一背侧骨间肌正常。相反,在特发性震颤患者中,胸锁乳突肌和第一背侧骨间肌均可见正常的皮质-皮质抑制。
可通过配对脉冲磁刺激方法研究胸锁乳突肌运动皮质的皮质-皮质抑制机制。我们在斜颈患者中发现皮质-皮质抑制减弱的结果表明,痉挛性斜颈中胸锁乳突肌运动皮质的兴奋性异常(过度兴奋或去抑制)。
