RU2724326C2 - Method for initiating the death of tumor cells with sodium salts of chlorine-e6, chlorine-p6 and purpurin-5 and hf and microwave radiation with wave radiation energy - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention is intended for inducing death of tumor cells in living biological objects using solutions of sodium salts chlorine-e, chlorine-pand purpurine-5 preparation "Radachlorin" electromagnetic HF and microwave energy of photo-wave radiation, known as HF- and UHF- hyperthermia. Described is a method for initiation of tumor cell death, intended for complex treatment of oncological patients, having tumor tissues with metastases for their hyperthermia in human organs, characterized by that before treatment, a person is transferred to a non-carbohydrate diet for 3 days to create glucose starvation and subsequent maximum saturation of oncological cells with an electron-ion solution of sodium salts of chlorine-e, chlorine-pand purpurin-5 preparation "Radachlorin" with intravenous introduction in megadose 2.5 mg/kg of human body weight when accumulated in 3–4 times higher than in healthy, and 5 hours after administration of preparation "Radachlorin" selective hyperthermia of tumor tissues HF energy is carried out in accordance with depth of their location and penetration depth of electromagnetic waves in human body of 1100 centimeters, at the resolved frequency f=13.56 MHz, with a total rate of heating the tumor tissues at these frequencies of 0.054 °C/s, 180 seconds to temperature of 46.3 °C and heating the healthy tissues, not exceeding 40 °C.EFFECT: technical result is thermal death of tumor tissues due to high dielectric contrast of tumor and increasing difference in its conductivity (dielectric loss) relative to surrounding healthy biological tissues, reaching multiple values for various tumors; this allows for fluorescence diagnostics to specify boundaries of tumors and conduct simultaneous hyperthermia of tumor cells with electromagnetic HF- and UHF-energy of photo-wave radiation and detect and destroy, thus, even undetectable tumor formations located in deep layers of biological object.1 cl, 2 tbl

Description

The invention relates to medicine and is intended to induce the death of tumor cells in living biological objects by the preparation "Radachlorin" and the energy of the wave RF and microwave radiation, known as RF and microwave hyperthermia.

In medicine, hyperthermia is called a significant increase in the human body temperature of more than 40 ° C. Hyperthermia for cancer treatment was used half a century ago. The German doctor von Ardenne opened a "thermal" clinic in a water bath for hopelessly oncologically ill patients, whom he heated to 42 ° C. After this procedure, no more than 17% of people survived, but they were completely cured. The rest were dying, not withstanding such a high temperature. This technology is now used in the United States, where the human body is heated to 42.5 ° C, followed by its return to life. This treatment technology can be effectively used for the selective heating of oncological tissues with RF and microwave energy without a significant increase in the temperature of healthy tissues surrounding the tumor.

The method for initiating the death of tumor cells by electromagnetic energy of wave radiation consists in the complex simultaneous exposure to sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5, which include a concentrate for the preparation of a solution for infusion of the drug "Radachlorin". After intravenous administration, reaching initial values 24 hours after administration of the Radachlorin preparation, intravenously (drip) or orally, with a 30-minute infusion in a semi-darkened room in a single dose of 0.5-2.4 mg / kg with preliminary dilution 24 hours before administration and for its accumulation and saving in a significant amount in the tumor tissues of the human body takes time for its maximum accumulation in tumor tissues within 5 hours. The maximum content of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" in tumor tissues occurs precisely in this period of time and it is 3-4 times higher than in healthy tissues due to the selective absorption of this salt tumor tissue. The drug is excreted and redistributed from normal tissues and the human circulatory system to the tumor a day later, by 94% after intravenous administration. At the same time, during this period, selective hyperthermia of tumor cells for 180 sec by wave radiation at the allowed frequency of electromagnetic field oscillations f = 13.56 MHz, f = 40.68 MHz, f = 433 92 MHz, f = 915 MHz and f = 2400 MHz, with a heating rate of 0.054 ° C / sec to a final temperature for heating tumor cells 46.3 ° C. The concentration of the drug "Radachlorin" in the tumor reaches its maximum value during the first 0.5-5 hours after its intravenous administration or oral administration and persists for a day, in other organs and tissues the concentration of the drug sharply decreases over this period of time, which causes maximum damage to the tumor during HF and microwave electromagnetic hyperthermia and photoluminescent therapy during this period of time. After 0.5-5 hours, after its intravenous or oral administration, there is a more rapid elimination of "Radachlorin" from healthy tissues in comparison with tumor tissues. The result of this is a high fluorescence contrast of the tumor and an increase in its conductivity (dielectric properties) relative to the surrounding healthy biological tissues, reaching a difference of 3-4 times for different tumors. This allows one to clarify the boundaries of tumors and simultaneous hyperthermia of tumor cells by the energy of wave radiation during fluorescence diagnostics, and to identify and thus destroy even undetectable tumor formations located in deep layers of a biological object by the energy of wave radiation.

During HF and microwave heating of the tumor tissues, the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" are oxidized by internal cell peroxide to produce hydrogen in an alkaline medium, the reaction is catalyzed by heme of iron, and causes chemiluminescence with the active release of singlet oxygen. If an oxidizing agent - succinic acid with active evolution of hydrogen is added to the alkaline solution of oncell cells, then a glow occurs. In the presence of catalysts, this glow increases and becomes brighter. The role of catalysts for the solution of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" is carried out by hemin of blood iron and various sodium compounds. These chemical activators of chemiluminescence enter into chemical reactions with reactive oxygen species or organic free radicals, during which cell molecules are formed in an excited electronic state. Observed during this glow is associated with the transition of molecules to their ground state, which leads to the emission of photons. The activator of the excited state is sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" in the presence of oxygen radicals. Under the influence of an oxidizing agent - hydrogen radicals, formation occurs, which reacts with a superoxide radical forming an internal peroxide (dioxide), which leads to the formation of an excited molecule of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin". The transition of this molecule to the ground initial state is accompanied by the emission of a quantum of light. Hydrogen peroxide is the main participant in the formation of free radicals, it is constantly formed in small amounts in the human body, it is a relatively harmless compound, but in the presence of metal ions of variable valence of iron, copper, manganese and chromium or hemin compounds from hydrogen peroxide H ₂ O ₂ a destructive hydroxyl radical is formed JOH, which causes mutations and inactivation of enzymes and damage to biological membranes of cancer cells. The hydroxyl group of enzymes causes the activation of molecules, under the action of internal hydrogen peroxide and sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" actively reacts with them, and under the influence of the electromagnetic field of RF and microwave leads bright glow of biological tumor tissues caused by photoelectromagnetic fluorescence.

When placed in an alternating electromagnetic field of high tension and frequency of various biological bodies, they also begin to emit a characteristic radiance of various intensities and colors, from which one can judge the properties of the studied object. The method of “high-frequency photography” (the Kirlian effect, kirlianography in honor of the inventor V.K. Kirlian) is now widely known in Russia and abroad as a method of experimental studies of electromagnetic fields and bioenergetic interactions. But the greatest scientific and practical interest is the study of the glow of biological objects in an alternating electromagnetic field of high frequency. explained by the photoelectromagnetic effect of photo-wave radiation and the luminescence of biological objects.

In accordance with modern concepts, aqueous solutions of alkalis and acids in the human body are considered as an associated liquid consisting of separate associated elements - neutral clusters and cluster ions of the general formula (H ₂ O) _n , [(H ₂ O) _n ] ⁺ , [( H ₂ O) _n ] ^- , [(NO ₂ ) _n ], [(H ₂ O ₂ ) _n ], [(NaO ₂ ) _n ] [(ClO ₂ ) _n ], [(CO ₂ ) _n ] etc. .d., where the number of water molecules bound in hydrogen bonds can reach n times, according to some authors, under the influence of HF and microwave energy, hundreds or even thousands of units. These effects respectively change the electrical conductivity and biophotoluminescence of biological tissues. Changing the position of one structural element (water molecule) under the influence of any external factor or changing the orientation of surrounding neighboring water molecules in the cells provides high sensitivity of the entire water information system to various external influences (electromagnetic, thermal, sound fields, bio-exposure, etc.). In addition, in water clusters, due to the interaction between covalent and hydrogen bonds between oxygen atoms and hydrogen atoms, proton (H ⁺ ) migration by relay mechanism can occur, leading to proton delocalization within the cluster providing singlet oxygen with a characteristic bright glow that kills cancer cells. This property explains the extremely labile, mobile nature of the interaction of clusters with each other.

The structured state of aqueous solutions is a sensitive sensor of various fields - electromagnetic, acoustic, energy - information, etc. In addition, aqueous solutions, various chemical elements, is a source of superweak and weak alternating electromagnetic radiation. In this case, the induction of an external electromagnetic field can occur, causing resonance effects of combining (superposition) of external electromagnetic fields with its own fields in biological objects under photo-wave radiation, which can change the structural and informational characteristics of biological objects, 80-90% of which are solutions of water with various chemical impurities and cause their photoluminescence.

Under the action of a high frequency electromagnetic field in biological objects and aqueous solutions of various chemicals, the molecules N ₂ , H ₂ , O ₂ and CO ₂ are excited, polarized and ionized. As a result, an ionized gas is formed with separated electrons having negative charges, which create an electrically conductive medium for the formation of a corona discharge in biological objects of various colors, which, depending on the electrically conductive properties of an object saturated with various chemical solutions, can color the luminous corona in various color schemes. The shape of the glow corona, its density, brightness and surface distribution are determined mainly by the electromagnetic parameters of the object.

Some cells of the body granulocytes and monocytes in the blood, and tissue macrophages, in the fight against foreign cells secrete active forms of singlet oxygen contained in superoxide radicals, hydrogen peroxide H ₂ O ₂ , and hydroxyl radical JOH in this case, weak chemiluminescence is observed, which is amplified many times . When placed in an alternating electromagnetic field of high tension and frequency of various biological bodies, they begin to emit a characteristic radiance of various intensities and colors, from which one can judge the properties of the studied object. The method of “high-frequency photography” (the Kirlian effect, kirlianography in honor of the inventor V.K. Kirlian) is now widely known in Russia and abroad as a method of experimental studies of electromagnetic fields and bioenergetic interactions. But the greatest scientific and practical interest is the study of the glow of biological objects in an alternating electromagnetic field of high frequency, explained by the photoelectromagnetic effect of photo-wave radiation and luminescent biological objects.

In accordance with modern concepts, aqueous solutions of alkalis and acids in the human body are considered as an associated liquid consisting of separate associated elements - neutral clusters and cluster ions of the general formula (H ₂ O) _n , [(H ₂ O) _n ] ⁺ , [( H ₂ O) _n ] ^- , [(NO ₂ ) _n ], [(H ₂ O ₂ ) _n ], [(NaO ₂ ) _n ] [(ClO ₂ ) _n ], [(CO ₂ ) _n ] etc. .d. where the number of water molecules bound into hydrogen bonds can be up to n times, according to some authors, hundreds or even thousands of units. Changing the position of one structural element (water molecule) under the influence of any external factor or changing the orientation of surrounding neighboring water molecules provides high sensitivity of the entire water information system to various external influences (electromagnetic, thermal, sound fields, bio-exposure, etc.).

In addition, in water clusters due to the interaction between covalent and hydrogen bonds between oxygen atoms and hydrogen atoms, proton (H ⁺ ) migration can occur via the relay mechanism, leading to proton delocalization within the cluster. This property explains the extremely labile, mobile nature of the interaction of clusters with each other.

The structured state of aqueous solutions is a sensitive sensor of various fields - electromagnetic, acoustic, energy - information, etc. In addition, aqueous solutions, various chemical elements, is a source of superweak and weak alternating electromagnetic radiation. In this case, the induction of the corresponding electromagnetic field and resonance effects of combining (superposition) of electromagnetic fields that can change the structural and informational characteristics of biological objects, 80-90% consisting of water with various chemical impurities, can occur.

Under the action of a high frequency electromagnetic field in biological objects and aqueous solutions of various chemicals, the molecules N ₂ , H ₂ , O ₂ and CO ₂ are excited, polarized and ionized. As a result, an ionized gas is formed with separated electrons having negative charges, which create an electrically conductive medium for the formation of a corona discharge in biological objects of various colors, which, depending on the electrically conductive properties of the object, can color the luminous corona in various colors. The shape of the glow corona, its density, brightness and surface distribution are determined mainly by the electromagnetic parameters of the object.

Some cells of the body granulocytes and monocytes in the blood, and tissue macrophages, in the fight against foreign cells secrete active forms of oxygen contained in superoxide radicals, hydrogen peroxide H ₂ O ₂ , and hydroxyl radical JOH in this case, weak chemiluminescence is observed, which increases many times the presence of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin". These effects are also amplified many times by the action of short-term electrical impulses on blood vessels and cells, causing an increase in the permeability of cell membranes - riticulomas and stimulation of the release of reactive oxygen species by the cell metachondria. This effect of the influence of electrical impulses at the beginning of the 19th century was successfully demonstrated to the public by Nicolo Tesla, when exposed to pulsed high-frequency energy of vessels with liquids with the ability to emit light and fluorescent lamps that glowed without connecting to electric wires, with bright light in the hands of Nikola Tesla, with whom he also juggled, which caused genuine delight among the audience, while at the same time a phenomenon inexplicable by nature, which only Nicolo Teslo knew. These factors in biology are called collective stimuli of luminescence that alter the state of blood and tissue phagocytes and their ability to increase the excretion of reactive oxygen species, and accordingly the protective functions of cells.

In cancer cells, aerobic respiration is absent in the mitochondria and is replaced by glycolysis. Sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" inhibits glycolysis when it enters the cancer cell, but cannot transfer it to the normal aerobic pathway. Perhaps this is due to the competitive presence of glucose. To completely turn off glycolysis in tumor cells, glucose access must be completely excluded, or the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" over glucose should prevail in the substrate. In healthy cells in small amounts in cytazole, it exhibits protective antioxidant properties. In cancer cells, when there is an overabundance of it, it stimulates oxidation processes, which, when they are overabundant, have a toxic effect on cancer cells.

It can be argued that the effect would be higher if the treatment with the sodium salts of chlorin e6, chlorin p6 and purpurin-5 of the drug Radachlorin were based on the complete overlap of the intake of carbohydrates-glucose, as competitors to the sodium salts of chlorin-e ₆ , chlorin -r ₆ and purpurin-5 of the drug "Radachlorin" in cancer cells. For this, in our opinion, it is necessary to transfer a person to a carbohydrate-free diet for 3 days, for a complete absence at this time in the human diet of carbohydrates, which in the gastrointestinal tract turn into glucose, which is essential for the nutrition of cancer cells. With this introduction of cancer cells into artificial glucose starvation, then a person must enter high single doses of 0.5-2.4 mg / kg of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin". The required amount of the drug based on the maximum permissible single dose of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", not exceeding 2.4 mg / kg. Under the action of enzymes in the human body, sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" is determined by the intracellular concentration (level of sensitizer accumulation), its localization in the cell and photochemical activity (quantum yield of generation of singlet oxygen or free radicals), providing a fluorescent contrast of the tumor and an increase in its conductivity, relative to the surrounding healthy biological tissues. Upon receipt of the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" in the blood vessels of the tumor, which have a large branched network with thin peripheral vessels and a low blood speed in them, the blood flow in these vessels of the tumor tissue decreases more when heating them, which, even more efficiently, leads to blood coagulation in the vessels of the tumor tissues, not allowing them to cool, due to the lack of a closed circulatory system. This is a direct cytotoxic effect of HF and microwave energy on tumor cells, disrupting their blood supply due to damage to the blood vessel endothelium of the tumor tissue, and macrophages, leukocytes and lymphocytes are activated, leading to tumor necrosis. In the main organs of man, rich in blood vessels closed into the main circulatory system, cooling of healthy border tissues subject to HF and microwave hyperthermia occurs.

The sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the Radachlorin preparation are actively imported through endoplasmic reticules (EPR) (an endoplasmic reticulum consisting of membranes and setting the direction and active transport of substrates against gradients) into cells. It should be noted that the energy processes in cancer cells are transferred from metachondria to the endoplasmic reticulum. It is here that the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" accumulate in the EPR and the cancer cell environment in this place is significantly different from ordinary cells, it is simply restored here. A “hungry” cancer cell at this time can repeatedly accumulate the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug “Radachlorin”, because perceives it on its membrane transporters for glucose. Since there are many times more glucose-consuming receptors in the oncollet than in healthy ones, although the transport systems for the supply of glucose and sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug “Radachlorin” to the cell are common, this is the Trojan horse " Thus, it is very easy to deceive oncocytes and pump in them the sodium salts of chlorin-e _b , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", with a solution to the problem of supplying megadoses of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin -5 of the drug "Radachlorin" and then the phenomenon of death of cancer cells, under the influence of HF and microwave electromagnetic hyperthermia and photoluminescent therapy, will be greatly enhanced.

A "hungry" tumor is maximally saturated with sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", 3-4 times higher than in normal healthy tissues, in a sufficiently large amount on membranes and interstitial fluid. A “hungry” tumor in the absence of glucolysis saturates for a maximum of 0.5-5 hours, and many times higher than in normal healthy tissues, it stimulates the formation of macrophages and T lymphocytes under the action of the ferrachelase enzyme, in a sufficiently large amount on membranes and interstitial fluid. It is this chemical compound that is formed during the interaction of the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" and hydrogen peroxide in the internal environment of the body. Under the influence of the oxidizing agent of lipoperoxides and the formation of hydrogen, significantly enhanced temperature and the action and additional photodynamic action, electromagnetic fields of HF and microwave, active hydrogen and oxygen radicals are formed, which then reacts with superoxide radicals that accelerate and form internal peroxide (dioxide), H ₂ O ₂ with their hyperthermic decomposition, HF and microwave energy of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin". In this case, there is a multiple amplification in the formation of excited oxygen molecules. The transition of the molecules of sodium salts of chlorin-eb, chlorin-Rb and purpurin-5 of the drug "Radachlorin" and internal hydrogen peroxide from the excited to the ground state is accompanied by the emission of light quanta and strong glow. As a result of these chemical reactions associated with a high release of active forms of hydrogen and oxygen and organic free radicals, cancer cells are burned.

The method of "selective starvation" of cancer cells superficial and deeply located in the human body, by subsequent administration or administration of various sensitizers, for the selective maximum saturation of tumor cells with highly conductive electron - ion solutions of electrophotosensitizers with the maximum separation of electrophysical properties, tumor and healthy tissues, followed by selective exposure to them high-frequency electromagnetic fields in combination with other methods - this is the most relevant scientific and practical direction in the fight against cancer.

A number of researchers claim that the minimum molar concentration of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" and internal hydrogen peroxide, which is a prooxidant (lipid-oxidizing compounds that neutralize free radicals), kill cancer cells in the blood and tissues, without affecting healthy ones, due to the local oxidative stress-caused damage process, as a result of oxidation, cellular DNA and depletion of adenosine triphosphate (ATP) -source of cell energy due to additional exposure to RF and microwave energy. Internal hydrogen peroxides with the formation of hydrogen, among other molecules accompanying it, aggressive action, causes the functioning of a certain enzyme responsible for the "nutrition" of cancer cells to malfunction, can accumulate in the cytosol of cells. It is assumed that with further exposure to HF and microwave energy, the blood vessels of the tumors are disrupted and cytokine reactions are stimulated, TNF-a, activating microphages, leukocytes and lymphocytes actively damage the tumor cells.

The study of biophysical and biochemical mechanisms determines two concepts of the death of cancer cells, one suggests the importance of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", and the other significance of RF and microwave hyperthermia. The general combination of these methods will lead to the apparent death of cancer cells.

The main task for researchers is to maximize the effect of the maximum selective absorption of trisulfophthalocyanine hydroxyaluminium by cancer cells with the subsequent subsequent high-frequency irradiation of cancer cells in order to increase the effectiveness of treatment to 100%. It has already been proven that such an effect is possible by the example of the disinfection of biological objects from viral, fungal and bacterial infections of HF and microwave energy. Numerous studies that we conducted in the Krasnoyarsk State Agrarian University and the VIZR of St. Petersburg confirmed the 100% effectiveness of disinfecting vegetable seeds and living bioobjects saturated with highly conductive electron-ion solutions of micronutrients of high frequency and microwave energy against viral infections that have a similar origin with cancer cells.

A.S. No. 563938 of the USSR. A method of processing seeds of agricultural crops / Tsuglenok N.V., Tsuglenok G.I. - Publ. 03/16/1977, Bull. Number 25. USSR Certificate No. 950214. The method of presowing treatment of seeds / Tsuglenok N.V. - Registered in the register 04/14/1982. 45. Intensification of thermal processes of seed preparation for sowing with energy of high-frequency and microwave: methodical recommendations / N.V. Loam. - M .: Agropromizdat, 1989. Guidelines for the use of HF and microwave energy in the processes of preparing seeds for sowing / N.V. Loam. - M.: RZh Gosagroprom of the USSR, 1989 .-- 19 p. Ways of disinfecting tomato seeds against a viral infection / Yu.I. Vlasov [et al.] // All-Russian Research Institute for Plant Protection (VIZR). - 1989.- T. 71. - S. 49-54. The method of disinfection of egg powder. Patent Number: 1734632. Published: May 23, 1992 Authors: Tsuglenok N.V., Kolmakov Yu.V. IPC: A23v 5/02. Method for preparing medium for diluting sperm of a manufacturer Patent number: 1769422. Published: June 27, 1995. Authors: Tsuglenok, Ostashko, Chess, Silantyev, Kontsedal.

Most importantly, this method is harmless, does not have special side effects for biological objects.

It is proved that oncoviruses under the influence of carcinogens integrate into a healthy cell and dissolve in it over time, turning it into a cancer cell. Any viruses are killed by temperature or acid. Other methods against oncoviruses and cancer cells are basically powerless; they simply do not exist. A new photodynamic method of using laser photosensitizers deserves special attention in this direction. But the small penetration depth of the electromagnetic wave of laser emitters does not allow to burn deep malignant tumors.

It is worth noting another very important biophysical process - an increase in the electrical conductivity of viruses consisting of a protein shell filled with a mixture of nucleic acids and similarly tumor cells filled with intercellular fluid solutions determined by a significant concentration of ions and electrons and their mobility in comparison with healthy tissues .. With an increase in temperature at HF and microwave heating in tumor tissues, the mobility of ions and electrons increases significantly, increasing their electrical conductivity and dielectric loss, which further enhances their selective heating and apoptosis of tumor tissues.

It has already been proven that such an effect is possible, and most importantly, that it is harmless, without any special side effects.

The accumulation of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" in the tumor occurs within 0.5-5 hours after the administration of "Radachlorin" intravenously or orally. Then the level, after 5 hours, of the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug “Radachlorin” in the tumor gradually decreases, reaching the initial values 24 hours after the administration of the drug “Radachlorin” intravenously (dropwise) or orally with 30 minute infusion in a semi-darkened room in a single dose of 0.5-2.4 mg / kg with preliminary dilution 24 hours before the diagnosis and hyperthermia of the tumor tissues of the RF and microwave energy of the wave radiation, after which the tumors denature and within 2 weeks the decay products of the tumor cells excreted by the body on its own. Within 5-24 hours after administration of Radachlorin, the patient should be isolated from bright sunlight. The patient is allowed to stay in a room with an artificial light source.

This healing effect is explained by the fact that during 24 hours in normal cells of living biological objects of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" it is rapidly excreted, while maintaining a high contrast in the content of sodium salts of chlorin e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" in the tumor, which significantly increases its concentration and, accordingly, electrical conductivity with a significant change in the dielectric properties of the tumors relative to the surrounding healthy biological tissues.

Sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" are actively imported into the endoplasmic reticules (EPR) (Endoplasmic reticulum, consisting of membranes and setting the direction and active transport of substrates against gradients) of cells. It should be noted that the energy processes in cancer cells are transferred from metachondria to the endoplasmic reticulum. It is here that in the EPR it accumulates the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" and the environment of the cancer cell in this place is significantly different from ordinary cells, it is simply restored here. From this moment, it is possible to start with the use of HF and microwave hyperthermia and sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" the destructive effect on the cell. A “hungry” cancer cell at this time can repeatedly accumulate the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug “Radachlorin”, because perceives it on its membrane transporters for glucose.

The main task for researchers remains to maximize the effect of maximum selective absorption of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" by cancer cells and to increase the effectiveness of treatment by increasing the conductivity of metachondria and reticulum cancer cells. The electrical conductivity of cancer cells is due to the presence of mobile charged electrons in them on the reticulums and in the nucleus of the cell and ions in the mitochondria of the cell. The value of electrical conductivity depends on the number of electric charges and their mobility. The electrical conductivity of living tissues is determined by the concentration of ions and their mobility, which is different in different tissues, and therefore biological objects have the properties of conductors, semiconductors and dielectrics. The intercellular fluid saturated with sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" contains the maximum ion content and electrical conductivity of tumor tissues is high and is more than 1 S 1m-1. It is proved that sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", under the action of short-term electrical impulses that stimulate the release of reactive oxygen species and increase the permeability of cell membranes and cause chemiluminescence, leading to lipid peroxidation and destruction cancer cells secreted by singlet oxygen.

The biophysical meaning of this method is to selectively saturate and accumulate highly electrically conductive electron-ionic solutions of electrophotosensitizers in tumor cells and to maximize the separation of the electrophysical properties of tumor and healthy tissues with sodium salts of chlorin- ₆ , chlorin- ₆ and purpurin-5 of the drug Radachlorin ^® "and a significant increase in the difference in electrical potentials of tumor and healthy cells in the intercellular medium and on the walls of the reticulum. It is worth noting another very important biophysical process — an increase in the electrical conductivity of tumor tissues, due to the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin ^® " with amplification by a significant concentration of ions and electrons and their mobility. With increasing temperature in tumor tissues under the influence of HF and microwave energy, the mobility of ions and electrons increases significantly, increasing their electrical conductivity.

Large protein molecules have a lower electrical conductivity, up to 0.003 S⋅m-1. Intracellular membranes have a conductivity below (1-3⋅10 ^-5 ) cm⋅m-1. The highest conductivity in the human body is in liquid media (blood, lymph, bile, urine, cerebrospinal fluid and tumor tissue (0.6-2.0 S⋅m-1) and muscle tissue (0.2 S⋅m- 1) .Bone, adipose and nerve tissues, in particular coarse-fibrous connective tissues and tooth enamel tissues (10 ^-3 -10 ^-6 S⋅m-1), have the lowest electrical conductivity. The conductivity of cells and tissues in RF is much more complex and microwave currents.In this case, biological objects have both conductivity and capacitance, which characterizes the dielectric constant.The frequency dependence of the electrical parameters and the absorption of electromagnetic energy are determined by the size and shape of the cells, their permeability, the ratio between the volume of cells and intercellular spaces, the concentration of free ions in cells and the content of free water in them.All of these factors lead to a change in the electrical conductivity of biological objects. The metabolism of oncological cells is a content of glucose or its substitutes. In this case, the sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin". If there are malignant tumors and metastases in the human body that actively and intensively absorb glucose or its substitute, sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", they are converted to ATP in cancer cells significantly lower than in healthy ones, as a result of which, the cancer cells are very warm and increase the human body temperature by 1-2 ° C. This physiological mechanism induces an increase in the temperature of the tumor and surrounding normal tissues. The total rise in temperature also due to additional RF and microwave heating is currently recorded by a microwave radiometer, which has an error of 0.3 ° C and allows controlling the temperature of deeply located tumor tissues.

This process was partially studied by us when exposed to a biological object with tumor tissues, which were subjected to the daily complex effects of a constant magnetic field with an intensity of 25 μT and an alternating magnetic field with a frequency of 3.1 Hz and an intensity of 5 μT, exposure time of 60 minutes at a time, for 5 days. The proposed method for the impact of constant and variable effects on ion exchange in the mitochondria of cells and on negatively charged electrons on the reticulums and cell nuclei allowed the induction of death of tumor cells using magnetotherapy, which 40%, compared with the control, freed biological objects from tumor cells ( patent No. 2307681, authors: Tsuglenok N.V., Sergeeva E.Yu., Klimatskaya L.G. RU). Therefore, this direction of using magnetic and electromagnetic fields and their impact on the energy of tumor cells deserve special attention, confirmed by researchers from South Korea, who proposed using a powerful magnetic field to destroy tumor cells. In a powerful magnetic field, the tumor begins to kill itself.

There is a method of destruction of cancer cells during microwave irradiation (RF Patent No. 2174021, IPC A61N 5/02) before exposure to hyperthermia, the tumor is exposed to microwave radiation with a wavelength of 1.3-2 cm and the resonance frequency of the absorption by the tumors is detected. Then they carry out a similar effect on healthy tissues bordering on the tumor and reveal the value of the resonance frequency of absorption of these healthy tissues. Simultaneously with hyperthermia, the values of the resonant frequencies are monitored by the absorption of energy by tumors and healthy tissues, and when the values of the resonant frequencies come closer together, the energy absorption by tumors and healthy tissues is judged on the effectiveness of the treatment. This method allows to increase the effectiveness of the treatment of tumors by microwave hypothermia when they are heated to 43 ° C.

The main disadvantage of this method is the small difference in the heating of tumor and healthy tissues.

A known method of destruction of cancer cells of tumor tissues (RF Patent No. 2106159 IPC A61N 5/02, A61N 5/6) the essence of the invention includes the introduction into the region of tumor localization of ferromagnetic particles, followed by local induction heating, in the temperature range from 42 ° C to 45 ° C, over time, determined by the type of tumor, its size, location and type of ferromagnetic particles selected for induction heating, while heating is carried out only at times when tissue blood supply decreases, i.e. during exhalation and diastole of the patient’s heart. The heating range is controlled by a microwave depth thermometer, and heating is carried out automatically, using a computer, in biocontrol mode, according to the algorithms of a mathematical model of fluctuations in the thermal conductivity and heat capacity of the fabric, hysteresis of heating and heat removal.

The main disadvantages of this method is the small localization of magnetic particles in the tumor and the difficulty of maintaining a fixed temperature in various spatial regions of the tumor, which does not lead to a complete cure of patients.

A known method of destruction of cancerous tumors using magnetic nanoparticles (Presentation of a new magnetic field therapy system for the treatment of human solid tumors with magnetic fluid hyperthermia. Andreas Jordan, Regina Scholz, Klaus Maier-Hau, Manfred Johannsen, Peter Wust, Jacek Nadobny, Hermann Schirra, Helmut Schmidt, Serdar Deger, Stefan Loening, Wolfgang Lanksch, Roland Felix Journal of Magnetism and Magnetic Materials 225 (2001) 118-126).

The destruction of cancer cells is based on the thermolysis of magnetic nanoparticles introduced into the tumor and their induction heating in an alternating magnetic field at frequencies of 50-100 kHz.

However, this method does not allow local destruction of cancer cells and requires powerful electromagnets with currents of tens of kA at relatively high frequencies. In addition, powerful alternating magnetic fields can affect the processes of movement and diffusion of ions across cell membranes, as well as induce inducing alternating electric fields that affect the functioning of neural networks in the human body, associated with heating not only magnetic particles, but also all cells, located in the area of introduction of magnetic particles, and a strong spatial heterogeneity of the heating temperature both inside the tumor and healthy tissues.

A known method of short-focus x-ray therapy with a total focal zone of 100-120 Gy and remote gamma therapy for radiation destruction of malignant cells with a total focal zone of 30-40 Gy (see Sh. H. Gantsev. Oncology, M.: Medical Information Agency. 2004, pp. 190-204; Stephen J., Withrow E., MacEwen G. Smal animal clinical oncology - 2001, p. 305-308).

However, this method, despite the prevalence, has the following disadvantages. In the treatment of certain types of malignant neoplasms, for example melanoma, with the help of remote gamma therapy, even in combination with immunotherapy, as experience shows, leads to a 75-90% tumor recurrence, and after 2-6 months metastases occur.

Known neuron is an exciting method for the selective destruction of melanoma (see V.N. Mitin, N.G. Kozlovskaya, AM Arnopolskaya Neuron-capture therapy for oral tumors in dogs. All-Russian Veterinary Journal. 2006. No. 1, pp. 9-10) .

The method involves intravenous administration of L-borphenylalanine, which selectively accumulates in a particular melanoma tumor, since L-phenylalanine is an essential amino acid from which melanin is produced, which forms melanocytes contained in melanoma cells. Thus, selective accumulation of L-borphenylalanine in melanoma cells occurs. Upon irradiation of a spatial zone commensurate with a tumor containing L-borphenylalanine by a beam of slow neurons obtained from a neuron guide from a nuclear reactor, melanoma cells are destroyed due to the induced secondary local radiation of boron.

However, this method has the following disadvantages:

1. Radiation exposure of patients, which is only partially reduced when using a lithium protective apron.

2. A complex and very expensive installation, including a compact nuclear reactor, requiring qualified non-medical specialists, in particular nuclear physicists, to serve.

3. Long-term patient exposure for an hour when monitoring the cardiovascular system.

4. The use of general anesthesia.

A known method of photodynamic destruction of tumors, including intravenous administration of a photosensitizer and irradiation of the tumor with continuous laser radiation with a wavelength that matches the absorption band of the photosensitizer (see Photodynamic therapy / Ed. TJ Dougherty / J. Clin. Laser Med Surg. 1996, Vol. 14, P 219-348; RF Patent No. 2184578, IPC A61N 5/06). The selective photodynamic mechanism of destruction of cancer cells is based on a higher density (contrast) of photosensitizer accumulation in tumor cells compared to healthy cells, which is associated with a higher density of blood vessels in the tumor compared to healthy biological tissue.

However, this contrast for various tumors does not exceed two to three times. When laser radiation is absorbed by a photosensitizer, the dye molecules transfer to an excited electronic state and, when they collide with oxygen molecules dissolved in biological tissues, transfer it from an unexcited to an excited electronic singlet state with a typical lifetime of several microseconds. During this time, the molecules of singlet oxygen, having passed a characteristic path commensurate with the size of the cells when interacting with the plasma membrane of the cell, damage it, and the cell dies due to necrosis. Thus, cell destruction occurs only during exposure to laser radiation in the spatial region of laser beam irradiation.

The photodynamic method for the destruction of cancer cells has several disadvantages. The porphyrins, chlorins, photosensitizers-phthalacinins used in practice, have absorption bands in the ultraviolet or visible spectral range of the photosensitizers, and the lasers used cannot effectively penetrate to a depth of not more than a few millimeters. In addition, the photodynamic method has a low contrast accumulation of photosensitizers in cancer cells.

Closest to the claimed method is the destruction of biological tissue, which consists in introducing ethanol into it using a hollow game, characterized in that 95% ethanol is introduced in an amount equal to half the volume of biological tissue to be destroyed, then 5 ml of 20-30% ethanol are introduced, after which is carried out by heating with a high-frequency current with the simultaneous introduction of 20-30% ethanol in an amount equal to the volume of biological tissue to be destroyed. The device contains a high-frequency current generator with two cylindrical electrodes located coaxially relative to each other, internal in the form of a hollow needle through which ethanol is introduced into the tumor (Abstract No. 2006113533 of the patent of the Russian Federation). The disadvantage of this method can be attributed to: the unreasonableness of the selective absorption of ethanol by cancerous and healthy cells, the difficulty of introducing a coaxial electrode into heterogeneous tumors, for organizing uniform heating of tumor tissues that are not equally located from the bare end of the needle.

The objective of the present invention is the local destruction of malignant neoplasms deeply located in biological tissues during their HF and microwave heating and during secondary heating of the boundary layers of tumor and healthy tissues due to heat transfer from the tumor tissues at a high temperature with minimal destruction of the surrounding healthy biological tissue cells.

According to studies on RF and microwave electromagnetic hyperthermia and photoluminescent therapy of tumor tissues, at a temperature of 46.3 ° C, the boundary between the necrosis zone and healthy tissue is several cells. The area of destruction of tumor tissue includes a small area of the periphery of normal healthy tissues, which eliminates the regenerating cells from metastasis by their secondary necrosis due to thermal conductivity from tumor tissues.

A method for initiating the death of tumor cells, including saturation of tumor cells using highly conductive solutions of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", administered intravenously or orally, to a person 0.5-2.4 mg / kg of body weight the maximum accumulation in tumor tissues, after 0.5-5 hours after administration of the drug, is 3-4 times higher than in healthy tissues, characterized in that within 3 days before treatment the person is transferred to a protein diet followed by intravenous administration of a highly conductive electron-ion a solution of sodium salts of chlorin - e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" to maximize the difference in electrical conductivity and dielectric loss for hungry tumor and healthy tissues, and 5 hours after the administration of the drug "Radachlorin" RF and microwave hyperthermia of the olukholovy tissue electromagnetic energy of photovoltaic radiation with a heating rate of tumor tissue of 0.054 ° C / s, 180 seconds before temperature 46.3 ° C, and heating of healthy tissues not exceeding 40 ° C.

A one-time megadose of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" is taken intravenously and is 2.5 mg / kg of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" and is carried out heating and hyperthermia of tumor tissues saturated with a solution of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", RF and microwave energy of the photo-wave radiation, in accordance with the frequency, with the depth of penetration of the electromagnetic wave and with the depth of the location of the tumor tissues at the allowed frequencies: f = 13.56 MHz - 1100 cm; f = 27 MHz - 545 cm; f = 40.68 MHz - 370 cm; f = 433.92 MHz - 34.5 cm; f = 915 MHz - 16.5 cm and f = 2450 MHz - 6.1 cm.

The physical nature of microwave radiation is the physical field of moving electric charges in electric and magnetic fields, which are a single electromagnetic field (EMF), characterized by an oscillation frequency f. The difference is only in the frequency with which electromagnetic oscillations of the corresponding wavelength occur. The biological effect of EMF on a living organism is the absorption of energy by biological tissues, characterized by biophysical parameters - dielectric constant and conductivity.

The tissues of the human body, due to the high content of water in them, should be considered as lossy dielectrics. With general body irradiation, EMF energy penetrates to a depth of 0.5 wavelength. The intensity of exposure, exposure and dielectric loss and conductivity characterize the selective absorption of electromagnetic fields by various tissues at the same density of electromagnetic radiation.

where, λ is the wavelength;

c is the propagation velocity of the electromagnetic wave;

f is the frequency of the electromagnetic field.

The frequency with which oscillations of the electromagnetic field occur significantly affects the depth of penetration of an electromagnetic wave into a biological object.

The reason is commensurability with various physical objects. At f = 13.56 MHz, the EMF wavelength λ = 22 m, at f = 40.68 MHz, the EMF wavelength λ = 7.4 m, at f = 433.92 MHz, the EMF wavelength λ = 69 cm, at f = 915 MHz, the wavelength of the EMF λ = 33 cm, and at f = 2450 MHz, the wavelength of the EMF λ = 12.2 cm (Table 1)

This determines the choice of equipment for local hyperthermia of tumors located at different depths in biological objects.

Tumor tissues saturated with sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" are 3-4 times higher than its content in healthy tissues, respectively, its electrical conductivity is so many times different, i.e. the ability of tumor tissues to conduct an electric current is due to the presence of acid electrolyte in the tumors, free charge carriers - electrically charged particles, which, under the influence of an external electric field in the thickness of the tumor, create a conductivity current.

tgδ.Another important parameter of dielectric and semiconductor materials, which are tumors, is dielectric loss, they serve to determine the electric power spent on heating dielectrics and semiconductors in an electromagnetic field. In the reference literature, tgδ of the dielectric loss angle and permittivity are used to characterize the ability of a dielectric to absorb the energy of an alternating electric field. The physical meaning of tanδ is the presence of dielectric losses leading to a phase shift between current and voltage, where the angle between them becomes less than 90 ° by an amount, quantitative losses of wave energy are proportional to dielectric losses

tgδ.

Losses on electrical conductivity in dielectrics having a low specific volume resistance, for example, are absolutely chemically pure water. In nature, water is an excellent solvent and dissolves acids well, and therefore the electrical conductivity of such water has a large number of charged ions, which, under the influence of an alternating electric field, begin to move in time with a changing wave electromagnetic field, converting electrical energy into heat. Tumor tissues are maximally saturated with a solution of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin", in this case they are semiconductors containing several times more charged ions in comparison with surrounding healthy tissues and, accordingly, their heating rate during many times higher than surrounding healthy tissues at the same time. In such tumor tissues, relaxation dielectric losses are additionally observed due to the rotation of the polar water molecules in the direction of the electric field lines. Intramolecular friction occurs, which once again enhances the heating of tumor tissues.

The specific power of the dielectric loss, referred to the unit volume of the dielectric is called the dielectric loss, which can be calculated by the formula:

This ratio determines the degree of heating of various structures of tumor and healthy tissues of a biological substance in electrical

и tgδ опухолевых и здоровых тканей, и таким образом очень точно рассчитать скорость нагрева до заданной температуры нагрева опухолевых и окружающих здоровых тканей в однородном электромагнитном поле (ЭМП).field. To do this, you need to know

and tgδ of tumor and healthy tissues, and thus very accurately calculate the heating rate to a given temperature of heating of tumor and surrounding healthy tissues in a uniform electromagnetic field (EMF).

Selective absorption of a solution of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug “Radachlorin” by tumor tissues leads to their selective heating of tumors and electromagnetic photoluminescence to a higher temperature of 46.3 ° C during heating at the same time their healthy tissues to a temperature of 40 ° C, which leads to the inactivation of tumor tissues and their subsequent destruction, which then, within a few days, are excreted painlessly by the body. The rate of heating by the wave energy of an electromagnetic field depends on the power of dielectric generators and magnetrons.

и tgδ опухолевых и здоровых тканей, можно очень точно рассчитать скорость нагрева до заданной температуры нагрева опухолевых и окружающих здоровых тканей в однородном электромагнитном поле (ЭМП). по формуле:Knowing the specific power Pud allocated in a biological object taking into account

and tgδ of tumor and healthy tissues, it is possible to very accurately calculate the heating rate to a given temperature of heating of tumor and surrounding healthy tissues in a uniform electromagnetic field (EMF). according to the formula:

With an oscillatory power of electromagnetic field generators of 700-850 watts, 200-300 grams of tumor tissue can be heated to a temperature of 60 ° C in 2-3 minutes, the specific power released in the tumors, and their heating temperature is determined by the formula:

where, Co is the heat capacity of the tumor, feces;

m is the mass of the tumor in grams;

ΔТ is the temperature difference of the heating;

t is the heating time, sec.

This formula allows you to choose the necessary total specific power Rud about for RF and microwave heating of tumor tissues Rud op to a given difference in heating temperatures and the specific power Rud secreted in healthy tissues is determined by the general formula:

Then the specific power in the irradiation region, taking into account the dielectric properties:

и здоровых тканей

можно расчетным путем определить температуры их нагрева ΔT до необходимых заданных температур и определить время нагрева t и общую удельную мощность Руд об, облучаемой области. (Таблица 2)Knowing the dielectric properties of the tumor

and healthy tissues

it is possible by calculation to determine the temperatures of their heating ΔT to the required predetermined temperatures and to determine the heating time t and the total specific power Rud r of the irradiated region. (Table 2)

и удельную плотность опухолевых тканей насыщенных электрофотосенсибилизаторами в биологических объектах γ гр/см³, можно расчетным путем найти удельную мощность, выделяемую в опухолевых тканях Руд оп, и определить заданную температуру и рассчитать время их нагрева ВЧ и СВЧ энергией, по выше приведенным формулам.Similarly, knowing the dielectric parameters

and the specific density of tumor tissues saturated with electrophotosensitizers in biological objects γ g / cm ³ , it is possible to calculate the specific power released in the tumor tissues Rud op and determine the set temperature and calculate the time of their heating by HF and microwave energy, according to the above formulas.

Claims (1)

A method for initiating the death of tumor cells by RF and microwave energy, intended for the complex treatment of cancer patients with tumor tissues with metastases for their hyperthermia in the organs of the human body, characterized in that before treatment the person is transferred to a carbohydrate-free diet for 3 days to create glucose starvation and subsequent maximum saturation of cancer cells with an electron-ionic solution of sodium salts of chlorin-e ₆ , chlorin-p ₆ and purpurin-5 of the drug "Radachlorin" when administered intravenously in a megadose of 2.5 mg / kg of a person’s weight when it accumulates in 3-4 times higher than in healthy ones, and 5 hours after the administration of the Radachlorin preparation, selective hyperthermia of tumor tissues with RF energy is carried out in accordance with the depth of their location and the depth of penetration of the electromagnetic wave into the human body 1100 centimeters, at an allowed frequency f = 13.56 MHz, with a total heating rate of tumor tissue at these frequencies of 0.054 ° C / s, 180 seconds to a temperature of 4 6.3 ° C and heating of healthy tissues, not exceeding 40 ° C.