RU2014853C1 - Magnetotheraphy method - Google Patents

Abstract

FIELD: medicine, treating oncologic, neurologic and other diseases. SUBSTANCE: method involves subjecting a patient to be treated to the action of a bipolar pulsed magnetic field varying in amplitude with intensity selected within the range of 50-800 oersted at frequency within the range of 0.1-20 Hz. To obtain such a magnetic field a pulsed current varying according to sinusoidal or sawtooth law or trapezoidal law is used. If required, a current pulse divided in time into two portions on the first of which a current amplitude is selected constant and corresponding to the intensity of acting magnetic field and on the other portion a current amplitude is 1.5-4 times the same on the first one. EFFECT: enhanced efficiency. 4 cl, 4 dwg

Description

 The invention relates to medicine, namely to a method of magnetotherapy, and can be used to treat various diseases, including oncological, neurological and others.

 The methods of magnetotherapy are widely known, which consist in exposing the patient to a magnetic field created by a special source. In practice, permanent, rotating, pulsed magnetic fields are used, under the influence of which biochemical processes occur in the patient's body, leading to such therapeutic effects as anti-inflammatory, decongestant, analgesic and stimulating tissue regeneration actions.

 However, the known methods are not effective enough.

 A device for magnetotherapy is known that allows simultaneously and simultaneously acting on all systems and organs of a person uniformly rotating without changing sign, gradually varying in tension from zero to a set maximum and back to zero by a magnetic field.

 The frequency of rotation of the magnetic field is 100 Hz, which is not a stimulating factor in the treatment, especially on the basis that each human organ has a low-frequency biomagnetic field, in addition, this field has its own parameters for each of the organs. When exposed to a magnetic field on the entire human body, a microischemic effect can be observed. This magnetic field does not penetrate deep into human organs without affecting the cell.

 A known method of treating cancer by determining the resonant frequency of absorption of these cells and creating an electromagnetic field, the frequency of which is equal to the specified resonant frequency. As a result of the exposure of the electromagnetic field to the patient, a biophysical change occurs in the intracellular structures of the affected cells of the latter, which stimulates the formation of interferon inside the cells.

 The aim of the invention is the development of such a method of magnetotherapy, which would ensure the interaction of the biomagnetic field of the corresponding organ of a person with a magnetic field acting on the patient by modifying the magnetic field and its parameters.

 The goal is achieved by the fact that the proposed method of magnetotherapy, which consists in exposing the patient to a magnetic field, in which, according to the invention, a bipolar pulsed magnetic field with a pulse amplitude periodically changing in pulse amplitude is selected from a range of 50-800 E.

 It is recommended that the pulse repetition rate be selected from the range of 0.1-2.0 Hz.

 It is advisable for the formation of a bipolar pulse, periodically changing in amplitude of the pulses of the magnetic field to use a pulse current that varies in a sinusoidal or sawtooth, or trapezoidal law.

 In addition, it is possible to form a current pulse divided in time into two sections, and in the first section, the current amplitude can be chosen constant and corresponding to the required intensity of the acting magnetic field, and in the second section, the current amplitude should be increased by 1.5-4.0 times with respect to the amplitude of the current in the first section.

 In FIG. 1 shows a time diagram of a current change according to a sinusoidal law; in FIG. 2 is a time diagram of a current change according to a sawtooth law; in FIG. 3 is a temporal diagram of a change in current according to the trapezoidal law; in FIG. 4 - current pulse shape.

 The proposed method of magnetotherapy is as follows.

 The patient is placed between two solenoids between which a magnetic field is formed. The upper solenoid is lowered until it contacts the patient. To form a magnetic field, a pulsed current is passed through the solenoids, which varies in accordance with the laws depicted in FIGS. 1-3. The amplitude of the forward and reverse pulses is regulated separately.

 In FIG. 1 is a timing diagram of a current having a sinusoidal shape. According to the invention, bipolar pulses of 1.2 current are supplied. The amplitude of these pulses varies according to a sinusoidal law for both positive and negative pulses. It is advisable to use this form of current to affect soft tissues, such as muscle tissue, paranhematous organs, digestive organs, and others.

 However, to influence the bone tissue, it is desirable to apply current pulses that vary according to a sawtooth law (figure 2). Bipolar pulses 3, 4 of the current are also used, the envelope of which is a straight line.

 Conventionally, such an effect is "tough", it penetrates deeper into the tissue, reaching the bone and acting on them. These pulses significantly expand the scope of this method, allowing it to be used for many types of diseases for the treatment of which the magnetic field was not used, for example, for the treatment of dislocations and bone fractures, as well as for postoperative exposure to bone tissue.

 If we conditionally combine these two effects, then the current shape will be conventionally trapezoidal (Fig. 3). With this form of current, when pulses 3, 4 first increase in amplitude, then pulses 5, 6 have a constant amplitude, and pulses 7, 8 have a decreasing amplitude, the total effect of such pulses on a person will be such that each organ or part of the patient’s body perceives impulses corresponding to it from the indicated combination.

 Such universality of this form of impulses makes it possible to use them for various diseases, especially for weakened organisms or for completing treatment by the method of magnetotherapy.

 It was also found that the most preferred pulse shape 1-8, which is used in severe diseases such as cancer, is pulse 9, shown in FIG. 4.

This pulse contains two sections 10 and 11. The pulse in section 10, operating for a time t _1, has a constant amplitude, and the pulse in section 11 has an amplitude that increases during the time t _{2 of the} action of this pulse section according to a linear law. A constant value of the amplitude of the pulse in section 10 is selected based on the required intensity of the acting magnetic field in accordance with the irradiated portion of the patient’s body.

 A linear change in the current pulse in section 11 occurs until the magnitude of the amplitude in this section exceeds 1.5-4.0 times the amplitude of the current in section 10. The current amplitudes can vary according to sinusoidal or trapezoidal laws or remain constant.

 This form of impulses, studies have shown, allows you to affect patients with various oncological diseases, such as breast cancer, lung cancer, stomach cancer and others, as well as to terminate pregnancy in the early stages.

 The magnitude of the pulse amplitude in section 11, which exceeds the pulse amplitude in section 10 by less than 1.5 times, is ineffective, and more than 4.0 times leads to impaired body functions.

 For each organ and type of disease, the necessary magnetic field strength is selected from the specified range. This choice is made individually for each patient before the start of treatment.

 The magnetic field strength above 800 Oe causes a violation of the functions of organs and the destruction of the human body, and less than 50 Oe does not have a positive effect.

 The preferred pulse repetition rate is selected from the range of 0.1-2.0 Hz. When the so-called "low" frequencies correspond to the low-frequency biomagnetic field of any of the human organs, which is widely known from numerous studies. Therefore, it is easy to choose resonance frequencies from such a range to act on the corresponding organs.

 Frequencies less than 0.1 Hz do not correspond to the resonant frequencies of organs, and frequencies more than 2.0 Hz do not correspond to the biomagnetic fields of human organs.

 Magnetotherapy treatment is carried out for several sessions, but not less than five. The duration of each session is set depending on the type and severity of the disease, the selected organ, the shape of the pulse and its parameters. Magnetotherapy can be combined with other methods, such as chemotherapy and radiation therapy.

 Patient K., 1962, was observed for two years about peptic ulcer of the duodenum. An ulcer measuring 0.3x0.3 cm was revealed in her. 30 sessions of magnetotherapy were carried out: magnetic field strength 230-260 Oe, the frequency of the current, which varies according to a sinusoidal law of 0.3-1.0 Hz.

 After treatment, ulcers of the duodenal ulcer were not detected, there is a scar.

 The method of magnetotherapy was used in the treatment of osteomyelitis.

 Patient B., born in 1965, was injured (partial amputation of the right foot), as a result of which he developed osteomyelitis of the bones of the right foot with the formation of a fistula and an open wound 1.5 × 10 cm in size. 28 sessions of magnetotherapy were conducted, magnetic field strength 300-350 Oe, the frequency of the current, changing according to a sawtooth law, 0.2-0.9 Hz.

 After the treatment, the size of the wound decreased to 0.8x4 cm. Discharge from the wound stopped.

 The proposed method of magnetotherapy is used to treat cancer, allows you to slow down and stop the growth of the tumor, and in some cases to reduce its size.

 A positive effect is achieved in patients with advanced forms of cancer up to 20%.

 The impact of a bipolar pulsed magnetic field in this case is divided into two stages.

 1. Stimulating effect: the pulse repetition rate is selected from the range of 0.1-2.0 Hz, the pulses smoothly rise and fall (sinusoidal law).

 Anti-inflammatory, decongestant, analgesic and tissue regeneration stimulating action occurs.

 An insignificant activation of the gluco- and mineralocorticoid function of the adrenal cortex and thyroid gland occurs, the immunological reactivity increases, and microcirculation increases. Local exposure to a magnetic field determines the general adaptive restructuring of the whole organism and anti-inflammatory effects in areas separate from the place of exposure.

 2. Therapeutic effect: the pulse repetition rate is selected from the range of 0.1-2.0 Hz.

 For exposure choose the pulses shown in Fig.4. A bipolar pulsed magnetic field was used in the treatment of edematous-infiltrative forms of breast cancer with the presence of bone metastases in the lungs of 40 patients for 2 years. All patients previously underwent combined specific treatment in an oncology clinic. But, in connection with the progression of the process, specific treatment was canceled. Only symptomatic and analyzing therapy is indicated. The treatment was carried out by the method of magnetotherapy: magnetic field strength 260-280 Oe, current frequency 0.3-0.7 Hz. Today, out of 40 patients who were subsequently exposed to a magnetic field, 8 people (20%) are alive. He carried out a control puncture of the tumor site - cytologically observed the absence of malignant cells in the puncture and the presence of fibrous tissue elements.

 The use of a biopolar magnetic field in the treatment of lung cancer was investigated - the central and peripheral forms in 20 patients (10 and 10, respectively). The histological form of small cell cancer. For all patients, specific treatment is contraindicated in connection with the spread of the process. For 2 years, this group of patients was treated using magnetotherapy: magnetic field strength 250-390 Oe, current frequency 0.1-0.9 Hz.

 To date, out of 20 people, 4 (20%) are alive, respectively 1 and 3. Control was carried out using x-ray, computed tomography of the chest, bronchoscopy.

 In 3 cases, there was a slowdown and arrest of tumor growth. In this case, a decrease in the tumor by 3 times. With bronchoscopy in this case, the histological result is fibro-connective tissue.

 A bipolar pulsed magnetic field was used to treat patients with stomach cancer in 15 people. The histoform of adenocarcinoma. All patients underwent a preliminary examination - an inoperable form of stomach cancer with the presence of metastases in the omentum, along the peritoneum. No liver metastases were detected. The treatment was carried out by the method of magnetotherapy: magnetic field strength 200-250 Oe, current frequency 0.1-1 Hz.

 For two years of treatment and observation of patients, two people remained alive (13.3%). Patients are monitored using functional gastroscopy, stomach fluoroscopy, computed tomography and ultrasound examination of the abdominal cavity.

 It should be noted that all patients from these groups stopped taking drugs; all surviving patients continue to receive treatment using the proposed method of magnetotherapy.

Claims (4)

 1. METHOD OF MAGNETOTHERAPY, including exposure to a patient with a pulsed magnetic field, characterized in that a bipolar pulsed magnetic field with a pulse amplitude of 50 - 800 Oe periodically changing in amplitude is used.  2. The method according to claim 1, characterized in that the pulse repetition rate is selected from the range of 0.1 - 20.0 Hz.  3. The method according to claim 1 or 2, characterized in that for the formation of a bipolar pulsed periodically varying in amplitude of the pulses of the magnetic field using a pulsed current that varies in a sinusoidal, or sawtooth, or trapezoidal law.  4. The method according to any one of paragraphs. 1-3, characterized in that a current pulse is formed, divided in time into two sections, and in the first section, the current amplitude is chosen constant and corresponding to the required intensity of the acting magnetic field, and in the second section, the current amplitude is increased by 1.5 - 4.0 times with respect to the amplitude of the current in the first section.

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