SU1277965A1 - Method of measuring electric resitance of acupuncture points - Google Patents

Abstract

This invention relates to medicine, in particular to reflexotherapy and reflexodiagnostics. The purpose of the invention is to reduce the measurement time. Liquid electrodes are placed on human skin, located at two acupuncture points. Then a constant electric current of negative polarity is passed. Electrical resistance between acupuncture points is calculated by the voltage drop. The parameters of the external electrical effect are chosen based on the analysis of the properties of the dynamic current-voltage characteristics and the dynamic transition characteristics of acupuncture points. 2 tab. (L

Description

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05 ate The invention relates to medicine, in particular to reflex therapy and reflexodiagnostics. The aim of the invention is to reduce the measurement time. The method is carried out as follows. Liquid electrodes are placed on human skin, located at two acupuncture points, and pass a constant electric current of negative polarity with a pulse duration of 0.01-2.0 with a power of 0.05-0.3 μA at a voltage of 0.01- 0.4 V. The electroskin resistance between acupuncture points is calculated from the voltage drop. The goal is achieved by a reasonable choice of the boundary parameters of external electrical effects based on the analysis of the properties of dynamic current-voltage characteristics (IVC) and dynamic transition characteristics (HR) of acupuncture points (TA). The upper limit of the energy effect on TA when measuring its electrical resistance is determined by the inequality system ljBo; ; i Ij of the threshold min 4 In 1, the SC Inopora rain 3 MCA Tpozd 2c. To check the boundary conditions for measuring the electrical resistance across voltage, we investigated the dynamic current – voltage characteristics between two TAs in the voltage generator mode. These studies have shown that within an applied voltage of +0.4 V, the IVC TA is linear. This means that the voltage level of 0.4 V practically does not cause memorial changes in the TA area. To check the boundary conditions for the current, the dynamics of change in electrical resistance in healthy individuals between the two THAT in current generator mode was studied. The results are presented in Table. 1. T a b. l and c a 1

An analysis of the results shows that at meter currents of 20-100 nA, the resistance value of the TA is measured according to a logarithmic law, while the voltage drop on the TA is stable and is of the order of 0.1 V. For other current values, this relationship is violated.

To check the boundary conditions for the duration of the measuring current, the dynamics of change in electrical resistance in healthy individuals between two TAs at different durations of the measuring pulse (0.001; 0.01; 0.1; 1.0 and 2.0 s) at a current of 100 nA were investigated. .

These studies showed the coincidence and repeatability of the measurement results of the TA resistance values in all pulse duration ranges (except 0.001). The measurement accuracy was ± 2-2.5%. With a pulse duration of 0.001 s, a variability of values in the range of ± 20–30% was observed, which is explained by the influence of the reactive elements of tissues and measuring circuits.

For practical purposes, the measurement of the electrical resistance of the TA used mode:

UBOM. 0.01--0.4 V 1 "water 100 nA

. : 2 S.

In all cases, liquid electrodes made on the basis of a melanger are used as measuring electrodes for counting red blood cells filled with isotonic solution, in which copper wire (MGTF 0.07) is passed to the level of 0.5. Each measurement is carried out to check the condition of the electrodes by

0 value of the electrode potential (-35 mV ± 15 mV).

The concurrence of the TA resistance values when measured in the selected mode in practically healthy individuals is demonstrated by the following example:

Example. Subject TA date of birth 28.XI.48, date of research 03.03.1982, almost healthy. A threefold 0 measurement of the resistance values at 24 points Source was held, and after the second study, a 30-second exposure was additionally performed for each TA in the above mode. The survey results are shown in Table. 2

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Electrode Condition

table 2

0.90

0.90

0,82 0,96 0,81 0,90 0,92 0,80 0,88 0,84 0,80 0,91 0,95 0,70 0,91 0,84 0,86 0,94 0, 96 0.96 1.07 0.96 0.91 1, 10 0.95 0.95 0.93 0.98 0.99 0.92 1.06 0.98 1.12

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1.06 1.10 1.01 th

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-3 0.89 0.90 1.10

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- first 0.90 1.06 0.80

those OJ about 0.64 0.70 0.57 0.57 0.44 0.46

0.89

0.99

1.06 1.08 0.98 0.92

0.87

1.05

0.78 0.82 1.09

0.78 0.60 0.77

0.90 0.70 0.67

0.86 0.98 0.71

0.90 0.79

0.86 0.93 0.879 0.875

0.89 0.166 +0.138

+0.128 -0.50

-0.45 0.43

Mathematical processing of the measurement results shows that the average measurement of the electrical resistance of 24 points "The source is about one percent, and the reduced value of the TI-CI tapping is always clearly expressed, which characterizes poetic activity in a healthy organism of the functional system of the night .

Repeated and prolonged exposure when measuring the electrical resistance of the TA, but the proposed method does not affect the TA condition, since the observed dynamics of a change in the average value of the TA resistance is due to the dynamics of the own energy processes of the TA. At the same time, the use of electrical levels of electrical exposure significantly distorts the original value of electrical resistance TA, which is unacceptable when assessing their condition for diagnostic purposes.

Claims (1)

Invention Formula A method of measuring the electrical resistance of acupuncture points by acting on them with the help of active and passive electrodes with current pulses, characterized in that, in order to reduce the measurement time, a direct current of negative polarity of 0.05-0.30 μA with a duration of 0.01-2.0 s and a voltage of 0.01-0 is passed , 4, and the point resistance is determined when the voltage drops in the circuit of the active and passive electrodes of equal area.