基于神经电场理论的经络本质探讨

Essence of meridians based on neural electric field

在探讨感传经络的循经性带电小分子富集、低电阻、同位素迁移、肌电现象、导声性、热辐射、磁现象、光电特征等物理性生理病理现象基础上,提出循经感传作为生理感觉,只能是神经兴奋反射活动的结果,产生形成经络感传性神经电活动的直接刺激因子是机体感传相应部位带电生物小分子物质的富集。导致循经性带电生物小分子物质富集的根本原因是人体神经纤维因为其独特的电生理学机制及其分布走行规律,形成了能够促使带电小分子物质循经性富集的生物性电源电场。循经性电场是由经络临近部位不同空间多条神经生物电活动所形成的一条等电势平衡线。

The physiological and pathological phenomenon along the running courses of meridians such as enrichment of small charged molecular, low-resistance, isotope migration, electromyography phenomenon,acoustical conductivity, thermal radiation, magnetic phenomenon and optical-electrical characteristics, etc. are exyolored in this ar- ticle. And based on the above mentioned studies, it is concluded that as a physiological sensation along meridians, propagated sensation could only be the result of the reflection of nerve excitation. The direct stimulator of the neural electrical activities of the propagated sensation is the enrichment of charged small biological molecular at the corre- sponding site of the organism. The root cause of the enrichment is the unique electrophysiological mechanism and distribution discipline of the human nerve fiber, which formed an electric field of biological source for the concentration of the small molecular. Thus, it is concluded that the electric field along the running courses of meridians is an isopotential balanced line formed by multiple neural bioelectrical activities in different spaces closed to meridians.