This research was to investigate propogated channel sensation of meridian arisen by different modes of electrical stimulations. The sensation was evaluated by subject's personal sensation, electromyography (EMG), and Ryodoraku. Four different stimulation modes of 2Hz and 100Hz with positive and negative electrical waves were used. In the personal sensation of subjects, the results showed that the sensation arisen by low frequency was propagated along the meridian; while the sensation arisen by high frequency was propogated a wider range. In the Ryodoraku values monitoring, we found greater changes in the positive wave compared to negative wave during electrical stimulation (p <0.05). We also found that there was no change of Ryodoraku values on non-meridian points. It confirmed that stimulation propogated only on meridian, and not on non-meridian. The analysis of the values in electromyography (EMG) showed that the 2Hz electrical stimulation have greater electromyography amplitude and spectrum compared to non-meridian. The electromyography (EMG) sPectrum (5~200Hz) showed no difference in 2Hz electrical stimulation with positive and negative waves. This frequency range was identical to the frequency of the neuron when controls the contraction of the muscle. The electromyography (EMG) spectrum from 1 00Hz electrical stimulation was broader than that from ZHz electrical stimulation. Also the spectrum energy of 100Hz electrical stimulation was higher and more concentrated in 100, 200, 300, 400,...,1000Hz. Electrical stimulation of 100Hz represented the activity of the deep tissue of human. The activity is related to the nucleus when chromatin and mitochondrion are under interaction, and also related to the resonance in the lipid layers of the cells. The propogated channel sensation was more aggressive in the electrical stimulation of 100Hz than that of 2Hz.
This research was to investigate propogated channel sensation of meridian arisen by different modes of electrical stimulations. The sensation was evaluated by subject's personal sensation, electromyography (EMG), and Ryodoraku. Four different stimulation modes of 2Hz and 100Hz with positive and negative electrical waves were used. In the personal sensation of subjects, the results showed that the sensation arisen by low frequency was propagated along the meridian; while the sensation arisen by high frequency was propogated a wider range. In the Ryodoraku values monitoring, we found greater changes in the positive wave compared to negative wave during electrical stimulation (p <0.05). We also found that there was no change of Ryodoraku values on non-meridian points. It confirmed that stimulation propogated only on meridian, and not on non-meridian. The analysis of the values in electromyography (EMG) showed that the 2Hz electrical stimulation have greater electromyography amplitude and spectrum compared to non-meridian. The electromyography (EMG) sPectrum (5~200Hz) showed no difference in 2Hz electrical stimulation with positive and negative waves. This frequency range was identical to the frequency of the neuron when controls the contraction of the muscle. The electromyography (EMG) spectrum from 1 00Hz electrical stimulation was broader than that from ZHz electrical stimulation. Also the spectrum energy of 100Hz electrical stimulation was higher and more concentrated in 100, 200, 300, 400,...,1000Hz. Electrical stimulation of 100Hz represented the activity of the deep tissue of human. The activity is related to the nucleus when chromatin and mitochondrion are under interaction, and also related to the resonance in the lipid layers of the cells. The propogated channel sensation was more aggressive in the electrical stimulation of 100Hz than that of 2Hz.