RU2120629C1 - K-method of determination of concentration-kinetic condition of man's organism homeostasis - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method differs in that liquid media parameter, namely concentration-kinetic potential is used for measuring the homeostasis condition characteristic. For this purpose liquid column with measuring electrode installed in it is filled with physiological liquid and is calibrated in this liquid by average statistic value of concentration-kinetic potential under normal conditions of surrounding medium. Then it is brought to one of acupuncture points. Other electrode common to all measurements is connected to connection point of front and rear middle meridians positioned on upper lip frenulum. This done, direct current form current generator is passed through two physiological media thus formed separated with conducting transition from liquid medium of organism to physiological liquid medium. Current value is determined by concentration potentialities of physiological liquid used (for example 100 nA for 0.9 per cent of sodium chloride). Then value of concentration-kinetic potential of two liquid media is measured, and obtained result is recorded. Process of measurement and recording of concentration-kinetic potential value is continued for the remaining points of acupuncture. Each of measured and recorded values of potential is compared with physiological standard determined by range of values of concentration-kinetic potential between its average statistic value and root- mean-square deviations obtained for healthy organism. Concentration-kinetic condition of man's organism homeostasis is judged by correspondence between all measured values of concentration-kinetic potential and physiological standard. EFFECT: enhanced control of people's health condition. 1 cl

Description

 The invention relates to medicine, in particular to reflexotherapy methods for diagnosing the state of the human body, and can be used to monitor the state of human health in the complex conduct of mass preventive, professional or other studies.

 Currently, there are two main levels of homeostasis: parametric and functional. Under the state of the parametric level of homeostasis is understood the state of the internal environment of the body, determined by the concentration of electrolytes, nutrients and other substances, the circulating water matrix, which is the habitat of all cells of the body (see, for example, Halperin A.G., Lazarev P.I. Digestion and homeostasis . - M .: Nauka, 1986, p. 5-8).

 There are methods and methods for determining and evaluating a number of parameters of the body’s internal environment, for example, determining the reaction of body fluids by the concentration of hydrogen ions, which is an important constant for evaluating the usefulness of metabolic transformations in cells and the body as a whole (F.I. Komarov et al. Biochemical studies in clinic. - L.: Medicine, 1976, p. 260-262).

 It is known that with all the qualitative variety of body cells, the basis of their life is a common fundamental process - the continuous decay and synthesis of the substances that make up them. In turn, this provides an adaptive cell response that maintains the constancy of the internal environment of the body (D.S. Sarkisov, 1981).

 It is also known that the external integument of the human body has a transceiving function of exchanging information and energy with the external environment. According to the works (N.K. Anokhin, 1978; F.G. Portnov, 1988), the most sensitive areas of this relationship are acupuncture points.

Thus, the well-known sources of information provide a classification of levels of homeostasis according to parametric or functional features. Some parameters of the proposed classification are considered, for example, a hydrogen index (pH), an oxygen index (pO), CO ₂ , etc.

 The essence of the present invention lies in the fact that to measure the characteristics of the state of homeostasis of the human body use the parameter of liquid media - concentration-kinetic potential.

 It has been established that as a result of precision measurements in any liquid medium, if it is in a weak natural electromagnetic field, when two electrodes of the same conductive material are immersed in it, for example, copper, there always exists a certain emf or concentration-kinetic potential between them.

The appearance of this potential, according to the authors, is a consequence of the energy interaction of the liquid with the external environment and is manifested in the formation of a structured organization of the liquid as a liquid physical and chemical system with an electric field of its internal environment. This field is due to both the concentration (particle component) of the liquid system and the activity of the electrically charged components located in it, for example, for the water system, these are H ⁺ and OH ^- , essential hydrates, neutral molecules and atoms
For other liquid media, these are other components.

 Note that in such a liquid system, the process of its electromagnetic interaction with the external environment proceeds not only in the direction of dissociation, but also in the direction of synthesis of neutral atoms and molecules, as well as in the direction of creating hydrated ions and their dissociations.

 Molecules and atoms, depending on their state (neutral or ionized), can significantly change the chemical and electrical properties of such a liquid system. In the general case, this leads to the appearance of a concentration heterogeneity of its internal structure, despite the fact that ФdЕ = 0. This heterogeneity for electrically charged particles manifests itself in the form of a dynamic structure of the electric field and the corresponding concentration-kinematic potential (V.G. Kozlov et al. ., 1990).

 The value of the concentration-kinetic potential in specific conditions is determined by the kinematic binding energy of the components of the liquid medium, as well as the level of the energy background of the external environment at the time of measurement. Therefore, by measuring the concentration-kinetic potential of the liquid medium of the human body in certain areas associated with the exchange of information and energy with the external environment, we can conclude about its energy state or the energy state of the main functional systems. These areas are acupuncture points.

 In turn, this will determine the concentration-kinetic state of homeostasis of the human body.

 The applicant does not know the specified set of features of the proposed solution. On this basis, he believes that the proposal corresponds to the features of the invention: novelty in this field (medicine, reflexology), inventive step (pioneering solution), significant differences and applicability (clinical institutions of the Ministry of Health and the Ministry of Defense of the Russian Federation).

 Given the above, the proposed method for determining the concentration-kinetic state of homeostasis of the human body by the measured value of its concentration-kinetic potential is implemented as follows.

 The concentration-kinetic potential is measured with a digital meter through a liquid column.

 A measuring electrode is inserted into a liquid column filled with physiological fluid in a certain concentration corresponding to the physiological fluid of the human body, for example, sodium chloride solution at a concentration of 0.9%.

 Before starting the measurement, the liquid column is calibrated.

 To do this, into the solution of the selected physiological fluid with the same concentration as the column is initially filled, lower the electrode and the liquid column with the second electrode inserted into it and measure the concentration-kinetic potential of the specified solution.

 If the measured value of the potential of a physiological fluid corresponds to its average statistical value for this fluid, obtained under normal environmental conditions, then the calibration of the column is completed.

 If the measured value of the potential of the liquid column does not match its average statistical value, which may occur, for example, as a result of previous measurements, dilute the physiological liquid of the column or increase its concentration, achieving the initial (initial) concentration of the liquid column.

 After this, the calibration of the liquid column is also completed.

 Then the liquid column is brought to one of the acupuncture points. Another electrode common to all measurements is connected to the connection point of the front and rear connected meridians located on the bridle of the upper lip.

 Thus, two physiological media are organized, separated by a conducting transition from the body fluid to the physiological column fluid.

 Then, direct current is passed through these media, the value of which is determined by the concentration capabilities of each of the liquids used. For example, for sodium chloride 0.9%, the value of this current corresponds to a value of 100 nA.

 After that, the value of the concentration-kinetic potential of two media is measured. The measured value of the potential is stored.

 The process of measuring and storing the values of the concentration-kinetic potential is continued for the remaining acupuncture points.

 Then, each of the measured and stored values of the potential is compared with the physiological norm, which is determined by the range of values of the concentration-kinetic potential between its average statistical value and standard deviations obtained for a healthy organism. According to the correspondence (or inconsistency) of all measured values of the concentration-kinetic potential to the physiological norm, the concentration-kinetic state of the homeostasis of the human body is judged.

 Using the information given in the application materials, using the existing technology, elemental base and materials, the proposed method for determining the concentration-kinetic state of homeostasis of the human body can be relatively easily implemented, which characterizes the object of the invention as clinically applicable.

 It should be noted that this proposal opens a new direction in the study of adaptive-adaptive capabilities of the state of homeostasis as a dynamic stability of the human body to continuously changing conditions of its external environment.

 The proposed method for determining the concentration-kinetic state of the human body was tested at the department of military training V. Honey. Academy named after CM. Kirova, St. Petersburg, during the second quarter of 1995, clinical trials of the equipment with which the studies were conducted were completed here.

Claims (1)

 A method for determining the concentration-kinetic state of homeostasis of the human body, characterized in that to measure the characteristics of the state of homeostasis, the parameter of liquid media is used — the concentration-kinetic potential, for which a measuring electrode is inserted into the liquid column, and the column itself is filled with physiological liquid in a certain concentration thereof and previously calibrated in this fluid according to the average statistical value of the concentration-kinetic potential of the fluid under normal conditions environment, after which this liquid column is brought to one of the acupuncture points, and the other electrode, common to all measurements, is connected to the connection point of the anterior and posterior median meridians located on the bridle of the upper lip, then through two physiological media formed in this way, Separated by a conducting transition from the body’s liquid medium to the physiological liquid’s medium, a direct current is passed from the current generator, the value of which is determined by the concentration capabilities of the physiologist used liquid (for example, for sodium chloride 0.9% - 100 nA), then measure the value of the concentration-kinetic potential of two liquid media, and the measured value is stored, the process of measuring and storing the values of the concentration-kinetic potential is continued for the remaining acupuncture points, then each of the measured and stored values of the potential is compared with a physiological norm, determined by the range of values of the concentration-kinetic potential between its average statistical value and mean square Rational deviations obtained for a healthy organism, and according to the correspondence of all measured values of the concentration-kinetic potential to the physiological norm, they judge the concentration-kinetic state of homeostasis of the human body.