Jm. Kirilov et Kg. Kostov, ELECTRO-AUDIO-VISUAL METHOD FOR DIAGNOSIS AND TREATMENT, Acupuncture & electro-therapeutics research, 19(1), 1994, pp. 29-37
This method can be applied to the non-drug treatment of diseases. It p
rovides an exact evaluation of the healing effect by keeping the acupu
ncture point from overload. This method is realized by a bistable/mono
stable square wave oscillator. The electrical pulses for the treatment
of the acupuncture point are delivered from the noninverted oscillato
r output. Their electrical parameters: frequency, pulse duration, rise
time and coefficient of filling depend on the constantly changeable b
iophysical parameters of the acupuncture point, such as complex skin i
mpedance (z), and total infrared skin thermal emission (t(e)). Pulses
from the inverted oscillator output are provided to the acoustic and v
isual channels. In the acoustic channel, the pulses are controlled onl
y by amplitude. The visual output channel pulses apply to the amplitud
e- frequency circuit, where an amplitude - frequency analysis is perfo
rmed. The output pulses of three electrical filters (low, middle and h
igh frequency), control three sources of light, respectively red, gree
n, and blue. Three colors blend on the white screen, as the color pict
ure is modulated by the two biophysical parameters of the acupuncture
point. These parameters are in a constant dynamics. The audio channel
output information is delivered to the audio-information gate of the p
atient, reaching the Central Nervous System (CNS). The video channel o
utput information is applied to the video-information gate and then to
the patient's CNS, preparing it for appropriate therapeutical program
s.