Differences in electrical conduction properties between meridians and non-meridians.

Author: Lee MS, Jeong SY, Lee YH, Jeong DM, Eo YG, Ko SB.
Affiliation:
Center for Integrative Medicine, Institute of Medical Science, Wonkwang University, Iksan 570-749, Republic of Korea.
Conference/Journal: Am J Chin Med.
Date published: 2005
Other: Volume ID: 33 , Issue ID: 5 , Pages: 723-8 , Word Count: 151


Therapy using the acupuncture meridian system is an important part of traditional Chinese medicine. The purpose of this study was to investigate the electrical conduction properties of the meridians. The current conduction and potential profiles were compared after switching the current direction in the Hegu (LI-4) and Quchi (LI- 11) meridians and over a non-acupuncture point 1 cm from Quchi (LI-11) in 20 healthy subjects. Both meridians demonstrated significantly higher conductivity between Hegu (LI-4) and Quchi (LI-11) than between Hegu (LI-4) and the non-acupuncture point. The direction of current, peak frequency and absolute potential values in the direction Hegu (LI-4) to Quchi (LI-11) differed significantly from those in the direction Quchi (LI-11) to Hegu (LI-4). These results suggest that the conducting pathways are stronger in the meridians than in the non-meridians and that preferential conduction directions exist between two acupuncture points. These results are consistent with the theories of Qi-circulation and traditional Chinese medicine.

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