RU2616330C2 - Method for therapeutic effect using a low-frequency pulsed electromagnetic field (versions) - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: low-frequency pulsed electromagnetic field is used with frequency corresponding to healthy organs. For gastrointestinal tract diseases, exposure is performed with the magnetic flux density of 10 mT and pulse duration of 15 microseconds, and the frequency of 0.032 Hz - for esophagus diseases, 0.043 Hz - for stomach diseases, 0.258 Hz - for duodenum diseases, 0.204 Hz - for jejunum colon diseases, 0.172 Hz - for gallbladder diseases, 0.151 Hz - for ileum diseases, 0.129 Hz - for ascending colon diseases, 0.086 Hz - for transverse colon diseases, 0.064 Hz - for descending colon diseases, 0.054 Hz - for rectum diseases. For cardiovascular diseases, exposure is performed: in the frequency range of 9.5; 9.75; 10; 10.25; 10.5 Hz, with magnetic induction of 6 mT, pulse duration of 12 ms - for myocardium diseases; in the therapeutic frequency range of 0.02; 0.04; 0.06 Hz, with magnetic induction of 9 mT, pulse duration of 16 ms - for veins diseases; in the therapeutic frequency range of 0.2; 0.4; 0.6 Hz, with magnetic induction of 8 mT, pulse duration of 14 ms - for arteries diseases.

EFFECT: increased therapeutic effect due to diseased organ or tissue exposure to a low-frequency pulsed electromagnetic field at a frequency of healthy organ or tissue biorhythms.

2 cl, 1 tbl, 6 ex

Description

The invention relates to methods for therapeutic exposure to a low-frequency pulsed electromagnetic field and can be used in the field of chronomedicine, in particular chronomagnetotherapy. The invention is based on the fundamental property of living matter - the rhythm of biological processes. As a result of research conducted in the field of chronobiology and biorhythmology, scientists have developed a natural evolutionary classification of biorhythms of biosystems (Zaguskin S.L. Monograph. Cell rhythms and human health. Rostov n / D, Publishing House of SFU, 2010.- 292 p.). It has been established that in the human body there is a hierarchy of biorhythm periods from microsecond (changes in macromolecules in the cell) to perennial (renewal of skeleton cells). It turned out that biorhythms at all levels of the body are not constant values, they have the property of lability, i.e. have variable periods that change (vary) in certain ranges, and at each point in time can have different values. The processes of nerve cells — axons capable of reproducing from 500 to 1000 impulses in 1 s (500–1000 Hz), are characterized by the greatest lability; the central and peripheral synapses are less labile, their motor nerve endings can transmit from 100 to 150 excitations per second (100-150 Hz) to the skeletal muscle. The alpha rhythm of the brain of a healthy person is in the range of 9-13 Hz, the pulse rate is about 60-90 heartbeats per minute (1-1.5 Hz), and the respiratory rate varies in the range of 12-24 breaths per minute (0, 2-0.4 Hz). The lower the oscillation frequency, the smaller the lability range of biorhythms. Therefore, talking about any one resonant frequency or biorhythm of any organ or tissue is not entirely correct; it makes sense to talk about the average frequency or the range of medium frequencies.

The rhythmicity of biological processes opens up new possibilities in the field of chronomedicine. This means that all physiological processes occurring in the body are accompanied by appropriate biorhythms, i.e. have their own oscillation frequency. The same healthy and diseased tissue has different frequency characteristics of its oscillations. Thus, these oscillatory and physiological processes are interdependent. In case of a disease, a violation of physiological processes is accompanied by deviations in biorhythms and vice versa, a mismatch of biorhythms (desynchronosis) causes the appearance of pathologies. Since the disease is accompanied by a simultaneous violation of both physiological and vibrational processes, it follows from this that treatment of diseases is possible not only by restoring physiological processes by chemotherapy, but also by acting on biorhythms of diseased tissue by chronophysiotherapy.

A known method of biosynchronization of physiotherapeutic and destructive processes of exposure to the body, implemented in the system described in the patent of the Russian Federation No. 2186584, IPC A61N 1/00, publ. 08/10/2002 and intended for the implementation of biocontrolled chronophysiotherapy. The essence of the invention lies in the fact that by synchronizing the physiotherapeutic effect with certain phases of the biorhythms of the pulse and respiration, a multi-frequency parallel resonance capture is caused and, thereby, increase the effectiveness of the treatment.

However, this method does not allow therapeutic effect on a diseased organ or tissue by a low-frequency pulsed electromagnetic field at the biorhythm frequency of a healthy organ or tissue.

The closest analogue (prototype) is a method of forming a magnetotherapeutic effect, based on the supply to the system of n inductors of electrical signals in the form of binary pulse sequences of adjustable frequency, duty cycle and amplitude for a given period of time, and n inductors are placed throughout the patient to form a general magnetotherapeutic Wednesday (RF patent No. 2200036, IPC A61N 2/00, publ. 03/10/2003). Before the start of exposure, the initial values of the parameters of the electrical signals are established, which determine the initial parameters of the magnetotherapeutic environment, based on a priori information about the disease, then the values of the main functional and physiological indicators characterizing the “norm” to be sought for in the given disease are selected from the computer database, measured the actual values of the patient’s indicators and remember them as the source, and directly during each session, periodically measure these e indicators and compare them with the "norm", with the initial indicators and with the indicators obtained in previous sessions, calculating the deviations, from the values and signs of which the computer in accordance with a given program generates control actions that change the parameters of electrical signals that determine the magnetotherapeutic environment , watching the approximation of the actual functional and physiological indicators to the "norm". In this case, to implement control of the magnetotherapeutic effect, a function is introduced in the form of a mathematical formula. The specified method is implemented in the medical technology "Therapeutic and preventive use of the chronomagnetotherapeutic complex" Multimag "(Register of new medical technologies of the Ministry of Health of the Russian Federation, No. FS-2007/027), which implements biocontrolled magnetotherapy. In this case, therapeutic frequencies are selected empirically based on clinical results obtained in the treatment of various diseases. The essence of the prototype method lies in the fact that the patient’s heart rate controls the process of magnetotherapy and thereby coordinate the magnetotherapy effect with one of the main biorhythms of the body.

However, this method does not allow therapeutic effect on a diseased organ or tissue by a low-frequency pulsed electromagnetic field at the biorhythm frequency of a healthy organ or tissue.

The technical result of the proposed method is to increase the physiotherapeutic effect due to exposure to a diseased organ or tissue by a low-frequency pulsed electromagnetic field at the biorhythm frequency of a healthy organ or tissue.

The specified technical result is achieved by the fact that in the first embodiment, in the method of therapeutic exposure to a low-frequency pulsed electromagnetic field, including exposure to a frequency corresponding to healthy organs, according to the invention for diseases of the gastrointestinal tract, the effect is carried out with magnetic induction of 10 mT and a pulse duration of 15 μs, and the frequency is 0.032 Hz for diseases of the esophagus, 0.043 Hz for diseases of the stomach, 0.258 Hz for diseases of the duodenum, 0.204 Hz for diseases jejunum, 0.172 Hz for diseases of the gallbladder, 0.151 Hz for diseases of the ileum, 0.129 Hz for diseases of the ascending colon, 0.086 Hz for diseases of the transverse colon, 0.064 Hz for diseases of the descending colon, 0.054 Hz for diseases of the rectum.

The specified technical result is also achieved by the fact that in the second embodiment, in the method of therapeutic exposure to a low-frequency pulsed electromagnetic field, including exposure to a frequency range corresponding to healthy organs or tissues, according to the invention, for diseases of the cardiovascular system, the effect is: in the frequency range 9.5; 9.75; 10; 10.25; 10.5 Hz with magnetic induction 6 mT, pulse duration 12 μs - for myocardial diseases; in the therapeutic frequency range 0.02; 0.04; 0.06 Hz with magnetic induction 9 mT, pulse duration 16 μs - for diseases of the veins; in the therapeutic frequency range of 0.2; 0.4; 0.6 Hz with magnetic induction of 8 mT, pulse duration of 14 μs - for diseases of the arteries.

The duration of one therapeutic session is not more than 20 minutes, and their number is from 1 to 4 times a day and the duration of the course is not more than 10 days.

In this case, the characteristics of the electromagnetic field are selected taking into account the fact that the magnetic induction intensity decreases inversely with the square of the distance, and the pulse duration should be short enough so as not to cause side effects on the body (overheating of the tissue).

The method of therapeutic exposure to a low-frequency pulsed electromagnetic field is as follows. To implement the proposed method of treatment, a databank of therapeutic frequencies and therapeutic frequency ranges of biorhythms of healthy human tissues and organs is created. As a therapeutic frequency, the average biorhythm value of a particular tissue or organ is taken. With a large range of biorhythm changes, the therapeutic range of mid frequencies is set based on the therapeutic frequency. The therapeutic range is formed by the program taking into account the gender and age of the patient, his state of health, concomitant diseases and other factors. The use of electronic computing technology makes it possible to isolate very weak electrical signals against a background of noise, to conduct automatic statistical processing of a large amount of electrophysiological data, and to simulate electrophysiological processes. For this, special analysis methods are used to identify and study the latent periodicity of physiological processes (harmonic and spectral analysis, autocorrelation analysis, band pass filtering, moving summation, etc.). To determine the frequency values of the biorhythms of the body, various instrumental methods are used, in particular biopotentialialography: biorhythms of the heart - electrocardiography; brain biorhythms - electroencephalography; retinal biorhythms - electroretinography; biorhythms of the skin - electrodermatography; biorhythms of blood circulation - rheography (impedance plethysmography); biorhythms of the gastrointestinal tract - electrogastroenterography, etc. In this case, the frequency and amplitude of the biorhythms are recorded by electric potentials.

Using the gastroenterography method using the Gastroscan-HEM device, we determined the frequency ranges of the gastrointestinal tract (GIT) sections in healthy people and after their treatment the following therapeutic frequencies were obtained in Hz: esophagus - 0.032; stomach - 0,043; the duodenum - 0.258; jejunum -0.204; gall bladder - 0.172; ileum 0.151; ascending colon - 0.129; transverse colon - 0.086; descending colon - 0.064; the rectum is 0.054.

Table 1 shows the frequency characteristics of the biorhythms of the brain of healthy people obtained by electroencephalography at the Institute of Earth Magnetism, Ionosphere and Radio Wave Propagation RAS (IZMIRAN). (Khabarova O. V. Bioeffective frequencies and their relationship with the natural frequencies of living organisms. Biomedical technologies and radio electronics. 2002, No. 5, pp. 56-66.

For chronophysiotherapy of biorhythms of diseased tissue, the FizioMag magnetic pulse low-frequency therapeutic apparatus is used, developed and manufactured at Siberian Innovation Center LLC, Novosibirsk (RF patent for utility model No. 120878, IPC A61N 2/00, published on 10/10/2012. ) The device covers all tissues and organs, the biorhythms of which fall within the range of its operating frequencies, and represents an automated workstation of the physiotherapy room operator. It consists of the following components: a pulse current generator (GIT) and a control unit (CU) based on a microprocessor controller in one housing; a magnetic inductor connected by a cable to the output sockets on the GIT housing; a personal computer (PC) connected to the control unit via USB connectors on the GIT housing and special software installed in the PC. The software for obtaining a pulsed magnetic field with predetermined characteristics includes software that sets the frequency (f) of the pulsed magnetic field according to the set of values f ₁ , f ₂ , ... f _n set with a step interval for the corresponding time intervals T ₁ , T ₂ , ... T _n , and the given values of frequency (f) vary in the range of 0.001-10 ³ Hz. In addition, the software for obtaining a pulsed magnetic field with predetermined characteristics includes software that sets the magnetic induction (b) according to the set of values b ₁ , b ₂ , ... b _n specified with a step interval for the corresponding time intervals T ₁ , T ₂ , ... T _n , and the given values of magnetic induction (b) vary in the range of 0.1-40 μT.

FizioMag has the following technical characteristics: the frequency varies in the range of 0.001-1000 Hz in increments of 0.001 Hz; the amplitude of magnetic induction is in the range of 0.1-40 mT; pulse duration - in the range of 1-120 μs.

A patient with an established diagnosis is prescribed treatment on the PhysioMag apparatus. According to the instructions for use of the device, the magnetic inductor is located in the area of the problem zone or its projection on the surface of the body. In the control unit from the computer, a program is set corresponding to the type of disease, and one of the treatment modes is set: “stationary” or “swing”. In stationary mode, a physiotherapy session is carried out on one therapeutic frequency of a healthy tissue or organ. In the swing mode, a physiotherapy session is performed by sequentially sorting all the frequencies of a healthy tissue or organ from a given therapeutic range in ascending order. The program is designed in such a way that each frequency is grouped into one packet, the durations of all packets are the same. So, for example, if the therapeutic range consists of five frequencies, then with a session duration of 10 minutes, the duration of exposure at each frequency (packet) will be 2 minutes. In this case, the duration of the session depends on the frequency value and lies in the range of 10-20 minutes. At a frequency of less than 1 Hz, the chronomagnetotherapy session is 20 minutes and decreases to 10 minutes with increasing frequency.

The inventive method has passed clinical trials on the basis of GBUZ Novosibirsk Regional Clinical Hospital in the treatment of diseases of the cardiovascular system (CVS) and the gastrointestinal tract with various diagnoses. The tests were conducted under the guidance of specialists from the Department of Emergency Therapy at the Novosibirsk State Medical University of the Ministry of Health of the Russian Federation.

Before treatment of the gastrointestinal tract, all patients underwent electrogastroenterography, the results of which showed that they had deviations from the norm in the biorhythms of diseased tissues. The procedures were carried out on the PhysioMag apparatus with therapeutic frequencies of the corresponding sections of the gastrointestinal tract with a magnetic induction amplitude of 10 mT and a pulse duration of 15 μs. 24 people underwent chronomagnetotherapy, one session per day for 20 minutes in combination with chemotherapy, a course of treatment of 10 sessions. The number of cured patients increased by 14.8% and amounted to 95.8% compared with the control group - 81%. Moreover, depending on the diagnosis, the treatment time decreased by 15-20%.

The clinical effectiveness of the method was also confirmed by the appointment of patients with gastrointestinal diseases with monochronomagnetotherapy using the PhysioMag apparatus.

Example 1. Patient P., 47 years old, was admitted with a diagnosis of acute erosive gastritis. An intensive course of chronomagnetotherapy was conducted on the PhysioMag apparatus with a therapeutic frequency of 0.043 Hz with a magnetic induction amplitude of 10 mT and a pulse duration of 15 μs. The treatment was carried out without the use of drugs. Sessions were held four times a day: two before lunch and two after lunch for 20 minutes. Mucosal defects disappeared on the 6th day, and on the 8th day the mucosa recovered.

Example 2. Patient K., 52 years old, was admitted with a diagnosis of exacerbation of peptic ulcer of the duodenum. The patient underwent a course of chronomagnetotherapy on the PhysioMag apparatus with a therapeutic frequency of 0.258 Hz with an amplitude of magnetic induction of 10 mT, pulse duration of 15 μs for three sessions per day for 20 minutes. The treatment was carried out without chemotherapy. As a result, the clinical symptoms were stopped within 3 days.

Example 3. Patient M., 38 years old, was admitted with a diagnosis of acute gastroenterocolitis of the ascending colon. He completed a chronomagnetotherapy course at the PhysioMag apparatus with a therapeutic frequency of 0.129 Hz with an amplitude of magnetic induction of 10 mT, pulse duration of 15 μs for two sessions per day for 20 minutes. The treatment was carried out without chemotherapy. The inflammatory process stopped already on the 5th day of treatment.

After chronomagnetotherapy of diseased tissues, a spectral analysis of the obtained electrogastroenterograms showed that all patients had a normalization of the level and spectrum of biorhythms of the corresponding sections of the gastrointestinal tract.

Example 4. For the treatment of diseases of the cardiovascular system (CVS), a group of 25 people was formed. Of these, patients diagnosed with coronary heart disease (CHD): angina pectoris - 12 people; varicose limb disease - 7 people; obliterating endarteritis - 6 people. The treatment was carried out in combination with chemotherapy. Chronomagnetotherapy of patients with coronary artery disease was carried out in the “swing” mode with frequency packs from the therapeutic range inherent in healthy muscle tissue of the heart (myocardium): 9.5; 9.75; 10; 10.25; 10.5 Hz with an amplitude of magnetic induction of 6 mT, pulse duration of 12 μs sessions of 15 minutes once a day. According to the results of treatment, the positive dynamics was 91.7%, and compared with the statistical data obtained by the results of monochemotherapy, it increased by 10.2%.

Example 5. The treatment of varicose veins of the extremities was carried out in the "swing" mode with frequency packs from the therapeutic range inherent in healthy veins of the circulatory system: 0.02; 0.04; 0.06 Hz with a magnetic induction amplitude of 9 mT, pulse duration of 16 μs sessions of 20 minutes once a day. According to the results of treatment, the positive dynamics was 93.4%, and compared with the statistical data obtained by the results of monochemotherapy, it increased by 11.3%.

Example 6. The treatment of patients with obliterating endarteritis was carried out in a “swing” mode with frequency packs from the therapeutic range inherent in healthy arteries of the circulatory system: 0.2; 0.4; 0.6 Hz with an amplitude of magnetic induction of 8 mT, pulse duration of 14 μs sessions of 20 minutes once a day. According to the results of treatment, the positive dynamics was 92.5%, and compared with the statistical data obtained by the results of monochemotherapy, it increased by 10.6%.

Analysis of electrocardiograms and rheograms obtained before and after treatment showed that all patients had normalization of the frequency characteristics of biorhythms.

The effectiveness and safety of the treatment method are confirmed by the Act of evaluating the results of clinical trials of the medical device “Magnetic impulse low-frequency therapeutic apparatus“ PhysioMag ”in the treatment of diseases of the gastrointestinal tract and cardiovascular system No. 4 of 04/02/2015, conducted at the SBEI HPE NGMU Russian Ministry of Health.

The tests and examples of monophysiotherapy on the apparatus "PhysioMag" confirm the possibility of achieving the claimed technical result and wide clinical application of the proposed method in medicine, as well as veterinary medicine.

Claims (3)

1. The method of therapeutic exposure to a low-frequency pulsed electromagnetic field, including exposure to a frequency corresponding to healthy organs, characterized in that for diseases of the gastrointestinal tract, the effect is carried out with magnetic induction 10 mT and a pulse duration of 15 μs, and the frequency is 0.032 Hz for diseases of the esophagus , 0.043 Hz for diseases of the stomach, 0.258 Hz for diseases of the duodenum, 0.204 Hz for diseases of the jejunum, 0.172 Hz for diseases of the gallbladder, 0.151 Hz for diseases of the ileum, 0.129 Hz for diseases of the ascending colon, 0.086 Hz for diseases of the transverse colon, 0.064 Hz for diseases of the descending colon, 0.054 Hz for diseases of the rectum. 2. A method of therapeutic exposure to a low-frequency pulsed electromagnetic field, including exposure to a frequency range corresponding to healthy organs or tissues, characterized in that for diseases of the cardiovascular system, the effect is: in the frequency range of 9.5; 9.75; 10; 10.25; 10.5 Hz with magnetic induction 6 mT, pulse duration 12 μs - for myocardial diseases; in the therapeutic frequency range 0.02; 0.04; 0.06 Hz with magnetic induction 9 mT, pulse duration 16 μs - for diseases of the veins; in the therapeutic frequency range of 0.2; 0.4; 0.6 Hz with magnetic induction of 8 mT, pulse duration of 14 μs - for diseases of the arteries. 3. The method according to PP. 1 and 2, characterized in that the duration of one therapeutic session is not more than 20 minutes, and their number is from 1 to 4 times a day and the duration of the course is not more than 10 days.