FIELD: medicine.
SUBSTANCE: method involves measuring electric conductivity I of representative biologically active points on 12 paired meridians: P (lungs), GI (large intestine), E (stomach), RP (spleen and pancreas), C (heart), IG (small intestine), V (urinary bladder), R (kidneys), MC (pericardium), TR (triple heater), VB (gallbladder) and F (liver). Then physiological norm is calculated as health corridor with arithmetic mean Im of electric conductivity of representative biologically active points being taken into account and each meridian state being determined. Next to it, human psychosomatic state is identified with each meridian state being taken into account when comparing actual electric conductivity values in representative biologically active points to calculated physiologic norm reference values. The physiologic norm is calculated from formula I norm = Im ± 10 mcA. Five human psychosomatic state types are to be determined. One with dominating activation is determined in cases when E,RP,C,R meridian condition corresponds to yang-syndrome and GI,E,IG,V meridian condition corresponds to yin-syndrome. One with dominating asthenia is determined in cases when E,V meridian condition corresponds to yang-syndrome and RP,R meridian condition corresponds to yin-syndrome. One with dominating anxiousness is determined in cases when IG,VB meridian condition corresponds to yang-syndrome and C,MC,F meridian condition corresponds to yin-syndrome. One with dominating hypochondria is determined in cases when GI meridians condition corresponds to yang-syndrome and P,TR meridians condition corresponds to yin-syndrome. One with dominating psychopathy is determined in cases when MC,TR,F meridian condition corresponds to yang-syndrome and VB meridians condition corresponds to yin-syndrome. Each meridian condition is determined and following human psychosomatic state is identified both with computer-based method and without computer.
EFFECT: high accuracy of quantitative physiologic norm estimation.
2 cl, 4 dwg, 7 tbl
