猫三叉神经产生的远场电位

Yasuhiko Ajimi , Takayuki Ohira , Takeshi Kawase , Moriichiro Takase
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引用次数: 0

摘要

本研究证明猫的三叉神经产生远场电位(FFPs)。通过刺激精神主神经,三组分(组分1,0.59±0.06 ms;组分2,0.81±0.06 ms;表面电极鉴定组分3(0.98±0.07 ms)。这三个成分被认为是正、负FFPs,因为每个成分都有一个平稳峰,分布在头部,分为正、负场。病变研究和记录复合动作电位(CAPs)的结果确定这些电位的神经来源如下:成分1,下颌孔处的下颌神经;第二部分,下颌神经在卵圆孔处;成分3,在神经节和三叉神经根之间。下颌骨卵圆孔处神经开孔后浸入脑脊液后,分量2的振幅下降,蜂蜡封孔后恢复到原来的水平。我们得出结论,这种转变导致了神经周围体积导体电阻的变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Generation of far field potentials from the trigeminal nerve in the cat

This study provides evidence that far field potentials (FFPs) are generated from the trigeminal nerve in the cat. By stimulating the main mental nerve, three components (component 1, 0.59±0.06 ms; component 2, 0.81±0.06 ms; and component 3, 0.98±0.07 ms) were identified from surface electrodes. These three components were thought to be positive and negative FFPs because each component had a stationary peak and was distributed on the head being divided into positive and negative fields. Results of a study of lesions and recording compound action potentials (CAPs) defined the neural origins of those potentials as follows: component 1, the mandibular nerve at the mandibular foramen; component 2, the mandibular nerve at the foramen ovale; and component 3, somewhere between the gasserian ganglion and the trigeminal root. The amplitude of component 2 decreased when the mandibular nerve at the foramen ovale was immersed in cerebrospinal fluid (CSF) after opening the foramen and recovered to the prior level after closing the foramen with beeswax. We concluded that this transformation resulted in the change in electrical resistance of the volume conductor around the nerve.

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