| Literature DB >> 32651748 |
Yu-Chiang Hung1,2, Wen-Chung Chen3, Ting-Chang Chang4,5, Hao-Xuan Zheng6, Yan-Wen Liu7, Yung-Fang Tan3, Shih-Kai Lin8, Ying-Hsin Lu6, Wen-Long Hu7,9,10,11, Tsung-Ming Tsai3.
Abstract
Acupuncture and its meridians are important components of traditional Chinese medicine, and numerous opinions have been previously expressed regarding these meridians. This study aims to explore the phenomenon of meridians from the perspective of electronic physics by studying these meridians for the response current affected by electrical pulse and acupuncture. In this study, acupuncture which applies an electrical pulse was used to research the physical properties of the meridians. Different kinds of pulses were applied to the human body to realize abnormal electrical signals. Comparing these electrical measurement results with the isothermal transient ionic current (ITIC) theory, we found that the transmission of meridian messages may be related to ion conduction. The movement of ions induced by acupuncture and electrical stimulation can lead to drift and diffusion currents through the meridians. The ionic conduction of meridian hypothesis is proved in that the substances delivered by meridians are in fact ions.Entities:
Keywords: Acupuncture; Chinese medicine; Electrical pulse; Ion current; Meridian theory
Year: 2020 PMID: 32651748 DOI: 10.1186/s11671-020-03373-2
Source DB: PubMed Journal: Nanoscale Res Lett ISSN: 1556-276X Impact factor: 4.703