1. We systematically calculated the conduction velocity along the peripheral extensions of sensory vagal neurones in cats (the dendrites). In addition, a study of excitability cycle and light microscopic investigation were also conducted on these neurones. 2. The conduction velocity of the three known types of fibres (A, B and C) remains uniform along the dendrites. 3. Another mixed type of fibres exists with a C conduction velocity (mean value 1-5 m/sec) along its distal pathway and a B conduction velocity (mean value 6 m/sec) along its proximal pathway. The change in conduction velocity progressively occurs in the thoraco-cervical portion of the vagus nerve at least 20 mm from the receptor and at least 40 mm from the T cell. 4. The mixed fibres exhibited a C type excitability cycle in their peripheral pathway and a B type excitability cycle in their central pathway. 5. The histological study using the teasing method demonstrated the existence of unmyelinated fibres, in the thoraco-cervical region of the vagus nerve, becoming progressively myelinated from the periphery to the nodose ganglion. These fibres are likely to be the ones showing mixed electrophysiological properties. They represent (approximately) 10% of the vagal nerve population. 6. We propose to call the mixed fibres BC because they present electrophysiological and morphological properties of C fibres in their distal part and properties of B fibres in their proximal part.
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机译:1.我们系统地计算了猫(树突)感觉迷走神经元周围延伸的传导速度。此外,还对这些神经元进行了兴奋周期研究和光学显微镜研究。 2.三种已知类型的纤维(A,B和C)沿树枝状晶体的传导速度保持均匀。 3.存在另一种混合类型的纤维,其沿远端路径具有C传导速度(平均值为1-5 m / sec),而沿其近端路径具有B传导速度(平均值为6 m / sec)。传导速度的变化逐渐发生在迷走神经的胸-颈部分,距受体至少20 mm,距T细胞至少40 mm。 4.混合纤维在其外周途径中表现出C型兴奋性循环,并且在其中心途径中表现出B型兴奋性循环。 5.使用挑逗法进行的组织学研究表明,迷走神经的胸-颈区域存在未髓鞘纤维,从周围到结节神经节逐渐呈髓鞘状。这些纤维很可能是表现出混合电生理特性的纤维。它们代表(约)迷走神经人口的10%。 6.我们建议称混合纤维为BC,因为它们在远端具有C纤维的电生理和形态学特性,而在近端具有B纤维的电生理学和形态学特性。
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