RU2270663C2 - Method for treating pathological proliferation of body cells - Google Patents

Abstract

FIELD: medicine, reflexotherapy.

SUBSTANCE: one should match biologically active points and with subsequent impact upon them. One should choose biologically active point that corresponds to an organ with pathological cell proliferation. Then on should measure the potential of chosen biologically active point against a reference point. Then it is necessary to switch on the external source of direct electric field to chosen points. The poles of this source should be opposite by sign to those of points, and its absolute value is equal to the difference of absolute values of measured potential and a potential corresponding to healthy organ in chosen point. The impact should be performed up to the value of membranous potential of cancer cell being equal to the value of membranous potential of corresponding healthy organ. The innovation suggested simplifies therapeutic technique.

EFFECT: higher efficiency of therapy.

Description

The invention relates to the field of microbiology and clinical medicine, in particular oncology, and can be used to treat abnormal growth (proliferation) of body cells in a biological object.

A lot of research in oncology is devoted to the search for treatment methods that selectively destroy tumor cells without affecting normal neighboring cells. B. Alberts, B. Bray and others. Molecular cell biology, v.3. - M .: World. 1994, p. 465-467). In this work, the authors noted that proliferation can be suppressed by pushing cells to differentiate. At the same time, in order to become a malignant tumor cell, it must acquire the ability to penetrate the basement membrane, and this ability of the cell can be blocked with the help of appropriate antibodies, thereby suppressing the possible appearance of metastases.

It was also noted that the ability of cancer cells to mutate is prohibitive, which accelerates their complex of properties necessary for the manifestation of neoplastic and malignant characteristics, and contributes to the formation of resistance to antitumor drugs.

A known method of code (multi-frequency) magnetic cancer therapy, based on the use of the coincidence of certain frequencies of biorhythms and frequencies of biologically active zones (points). The use of this method, in turn, leads to a sharp increase in the effectiveness of external infra-low-frequency fields affecting the functional state of the body (L.V. Dubova. Infra-low-frequency magnetic therapy of the 21st century. Bulletin S.-Z. of the regional department of AMTN. 2000, vol. 3, p. 158). The work noted that in the adjusted physiological state induced by an external magnetic field, there is a pronounced increase in the adaptive and resistant properties of an organism that has an initially pathological state. In the treatment of malignant neoplasms, this effect of increasing the level of adaptability and the immune status of the body, which is combined with the activation of the action of pharmacological drugs, is especially noticeable when using code magnetic therapy in combination with radio and chemotherapy. This allows you to achieve positive changes in the dynamics of the tumor and significantly reduce pain. However, this method provides for its use in conjunction with radio and chemotherapy, which is its drawback.

A known method of so-called reflexology, based on exposure to biologically active points of electromagnetic radiation having a pre-selected therapeutic resonant frequency (AS USSR No. 1803095, class A 61 5/04 from 1993). The basis of this method is the interaction of electromagnetic radiation (EMP) of the millimeter wave range of low intensity with the biological structures of the human body. It was found that the radiation of this range interacts with biological objects at the molecular, cellular and organ levels, which suggests the existence of information channels for the interaction of electromagnetic radiation with human biological systems. The disadvantage of this method is its complexity, due to the selection (selection) of therapeutic frequencies, and the inability to isolate in the diagnosis of the information channel from a specific organ of the patient, which makes it unsuitable for the treatment of pathological proliferation of body cells.

The closest technical solution for the combination of essential features is a method of information-wave diagnostics and therapy, including the impact on biologically active points in the millimeter range, infrared range and part of the visible range. The exposure contains information signals of the infra-low-frequency range corresponding to signals of healthy organs (RF patent No. 2141785, class A 61 5/04 of 11/27/99). This method allows to increase the effectiveness of therapy by receiving and using information signals inherent in the organs and systems of a living organism. At the same time, the detoxification nature of information-wave therapy was revealed, which made it possible to recommend this method for radio-chemotherapy of cancer patients. The disadvantage of this method is the complexity of the technology of its implementation and the inability to use it for effective treatment of pathological proliferation of body cells.

The problem to which the claimed invention is directed, is to increase the efficiency and simplify the technology of therapy. The problem is solved due to the fact that in the method of treating pathological proliferation of body cells, including the energy effect on biologically active points of the skin of a biological object, before the energy effect, the potential of the selected biologically active point corresponding to the organ with pathological cell proliferation is measured relative to the reference point, and then connect to the selected biologically active point and to the reference point an external source of constant electric la with poles of opposite sign poles points to which it is connected, and the absolute value of the potential difference equal to the external source of the absolute values of the measured potential and the corresponding healthy body potential at the selected point.

The basis of the first stage of the implementation of the proposed method is the use of assessing the electrophysical state of the zone of biologically active points. This area of the skin is essentially a reflection of internal biological tissues and organs. Thus, in the area of a biologically active point, an energy-informational exchange occurs between the internal and external energy media. Depending on the state of the whole organism or its individual organs, biologically active points change their properties, maintaining the stability of the internal energy environment, or become a source of information about serious changes in the functioning of organs. This technique for assessing the state of the body, based on measuring the electrical parameters of biologically active points, is described in patents SU No. 1801742, class. A 61 H 39/02 and SU No. 1771738, class. A 61 H 39/00 and in the patent of the Russian Federation No. 2149579, class. A 61 B 5/04 of 05/27/2000

The second stage of the implementation of the proposed method is based on reducing the energy potential of the cancer cell, which, in turn, causes the onset of malignant properties of the cancer cell and supports these properties in the process of tumor growth. Such properties of cancer cells include their intense uncontrolled division and their pronounced aggressive behavior in relation to normal neighbors. It is known that a cancer cell is dressed with a continuous film of three main enzymes that intensively melt neighboring cells. The cancer cell feeds on the proteins of the surrounding cells. It was also found that all malignant tumors emit mitogenetic radiation about a hundred times more intense than healthy similar tissues do (Gurvich A.G., Gurvich L.D. Mitogenetic analysis of cancer cell biology. M .: VIEM, 1937, 79 pp.) It is obvious that such pathological activity of cancer cells becomes possible as a result of their excessively increased energy potential, in particular, a very high membrane potential. It was found that the membranes of tumor cells differ from normal ones in other proportions of phospholipids, cholesterol, which changes the transmembrane processes and parameters of ion channels necessary for cell integration. As a result, with the onset of cancer, a new cellular ecology is formed, adapted by its readiness for division and due to division itself to exist under conditions of significantly increased energy. The value of the membrane potential of cancer cells, as a result of such a rearrangement, is two or more times higher than the value of this potential in normal cells (Electrical System for the Regulation of Life Activities. Edited by G.N. Zatsepina, Moscow State University Publishing House, M., 1992 .). At the same time, the membrane potential plays a very important role in the processes of conservation and transformation of cellular energy (V. Skulachev, Energy Transformation in Biomembranes. M., 1972) Thus, the increased electrical energy that a cancer cell membrane possesses, and the destructive function of cancer cells in the body are interdependent.

A method of treating pathological cell proliferation is as follows. The potential of the selected biologically active point (BAP) corresponding to the organ with pathological cell proliferation is measured relative to the reference point. Reference point - a point on the surface of the body, selected as a constant both for diagnostic purposes and when exposed to an external source of a constant electric field. As electrodes for measurement, disc electrodes made of aluminum foil fixed to the skin using standard electrically conductive gels or physiological solutions enriched in glycerin can be used. A disc aluminum electrode is also placed at a reference point located, for example, on the neck, on the seventh cervical vertebra of the patient. The measured value of the potential of the selected BAP relative to the reference point reflects the physiological state of the organ to which this point corresponds. The potential value of the selected BAP for various organs with pathological proliferation can range from units of millivolts to hundreds of millivolts.

After measuring the indicated potential, the selected BAP is exposed to an external source of constant electric field. To do this, an external constant electric field source is connected to the BAP and to the reference point using electrodes, whose poles are opposite in sign to the poles of the points to which it is connected. For example, if the selected BAT has a potential with a plus sign relative to the reference point, then an electrode from an external source with a minus sign is connected to the BAT. Accordingly, an electrode with a plus sign is connected to the reference point in this case. In this case, the absolute value of the potential of the connected external source is equal to the difference in the absolute values of the measured potential and the potential corresponding to a healthy organ at the selected point.

Such an electrical connection reduces the value of the membrane potential of a cancer cell to a value equal to the value of the membrane potential of a healthy cell. This is because a living organism is a source of bioelectric signals, in which each organ is a complex system of galvanic cells. The basis of these elements is the electrical organization of the cell and, in particular, its membrane potential, which is transformed into the potential of BAP. At the same time, it is known that when the two sources of a constant electric field are turned on (turned on with opposite poles), the potential difference at the switching points is the difference between the potentials of these sources (X. Kukhling. Handbook of Physics. M: Mir, 1982 , p. 317). As a result of this effect on the selected BAP, the electrical characteristics of pathologically altered cells are normalized. The time and nature of the impact is determined by the degree of pathological changes and physiological characteristics of the object. The magnitude of the electric potential corresponding to a healthy organ is determined as the result of statistical processing of the corresponding measurements in the group of biological organisms of the same population, related by sex and age. In this case, measurements should be carried out at the same time of the day and year when the effect on the selected BAT is performed. For this option, you can use pre-compiled catalogs. In another embodiment, the value of the potential corresponding to a healthy organ is determined in advance equal to half the measured potential of the selected BAT (Electrical system for regulating vital processes. Edited by G.N. Zatsepina. M: Publishing House of Moscow State University, 1992). In this case, the potential value of the external source is equal to half the measured potential of the selected BAP. A variant is also possible in which a catalog for an individual organism is compiled, where the results of measurements of the BAP potential corresponding to a healthy organ are entered.

A decrease in the electric potential of the selected BAP corresponding to an organ with pathological proliferation to the values of the potential of a healthy organ leads to the restoration of the normal value of the membrane potential of cells. In turn, a decrease in the energy of a cancer cell significantly suppresses its malignant properties in the limit until the restoration of its normal properties for the body. The cell is forced to spend the remaining energy on maintaining the status of its own existence. With a decrease in the membrane potential in the limit to values corresponding to a normal cell, the work of the ion channels of the plasma membrane of the cell changes. The latter are responsible for selectivity, i.e. the ability of channels to pass ions of any one type is responsible for the independence of the operation of individual channels and for the discrete nature of the conductivity of ion channels. In the end, the normalization of the intake of protein macromolecules penetrating the lipid layer, the normalization of the proportions of cholesterol and phospholipids, which leads to a change in the nature of the transmembrane process in the cell, is necessary for normal cell integration.

Thus, normalization of the biochemical processes of cells occurs, which leads to a significant decrease in the pathological activity of cancer cells, and ultimately to their return to a normal state, which is in agreement with modern ideas about the nature of cancer (L. Kiselev. New about the molecular nature of cancer Bulletin of the USSR Academy of Sciences, No. 1, 1987).

The claimed invention is confirmed by the following examples. Successful treatment of people with bone disease by connecting an external quasi-variable electric field with experimentally selected parameters of this field (one hundred cases) to the BAP and the reference point is given in the literature (Electrical System for the Regulation of Vital Activities. Edited by G.N. Zatsepina. - M .: Moscow State University, 1992, pp. 117, 133-137).

Conducted in vivo experiments. The mice of the A. Snella and Balba lines served as the object of study. The potential of intact mice was previously measured. It averaged 0.5-1 mV. Subsequently, individuals were used with a rapidly growing intramuscular tumor in the hind paw area (36th teratoma, T / 36). T / 36 transplantation was carried out for all test animals (4 mice of each line) with the same biological material (ascites cells). The corresponding energy channel was modeled by a current conductor, one end of which was a needle immersed in a tumor. Another current conductor was also introduced with a needle into the healthy tissue adjacent to the tumor for electrical communication with the reference point thus designated. The other two ends of the conductors connected to the M92A ″ Mastech ″ multimeter and an external source of constant electric field - a stabilized voltage power supply HY 1503D ″ Mastech ″.

The experiments began on the 14th day after the inoculation of the tumor. At the beginning, the potential difference between the needles (electrodes) was measured, which showed values of ~ 100 mV. Then, in two cases (mice No. 2, 4 of both lines), an external EMF source was connected to the electrodes with a polarity opposite to the polarity of the electrodes and the connection duration was from 30 sec to 1.5 min. The voltage at the source output was set in accordance with the claimed method. After this action, the measured values of the potential difference ranged from 0.1 to 0.2 mV. For subsequent comparison, the voltage of an external emf source, the polarity of which coincided with the polarity of the electrodes, was applied to one of the individuals (mouse No. 1 of the A. Snella line).

The effect on mice was carried out for three days: the 14th, 17th and 19th days after inoculation of the tumor. On the 21st day after T / 36 inoculation, tumor sizes of mice were measured. The experiments showed that the minimum tumor size are mice No. 2 of both lines to which the claimed method was applied. This size was ~ 50% smaller than the tumor size that A. Snella mouse No. 1 had, and ~ 40% smaller than the tumor size of control mice No. 3 of both lines and Balba control mouse No. 1. Mouse No. 4 A.Snella, which was also applied the claimed method, the minimum tumor size was in second place after mice No. 2 of both lines.

The total number of impacts on experimental mice (in days) relative to their life time (in days) was ~ 0.26. As a result of the life cycle, experimental mice lived on average 20% longer than control mice.

This method allows you to approach the problem of treatment of proliferative cancer cells from a completely different perspective with respect to the known methods: it eliminates the use of toxic chemicals, simplifies the technology of treatment and reduces the time of onset of the therapeutic effect, which is ultimately an important step towards solving treatment problems cancer diseases.

Claims (1)

A method for the treatment of proliferative cancer cells of the body, including the selection of biologically active points and subsequent exposure to them, characterized in that they select a biologically active point corresponding to the organ with pathological cell proliferation, measure the potential of the selected biologically active point relative to the reference point, and then connect to the selected points an external source of a constant electric field whose poles are opposite in sign to the poles of the points to which it is connected, and its absolute the value is equal to the difference between the absolute values of the measured potential and the potential corresponding to a healthy organ at a selected point, and act up to the value of the membrane potential of a cancer cell equal to the value of the membrane potential of the corresponding healthy organ.