RU2250787C2 - Method and device for applying physiotherapy - Google Patents

Abstract

FIELD: medicine; medical engineering.

SUBSTANCE: method involves applying electromagnetic field excited with amplitude-modulated signal having carrying frequency of 100-1000 kHz and modulation frequency of 50-8000 Hz. Patient body trunk is subjected to field treatment and to concurrently acting electromagnetic field formed by amplitude-modulated signal having carrying frequency of 100-2000 kHz and modulation frequency of 50-8000 Hz in local mode. Device has power supply source, sinusoid signal oscillator, action element, low frequency source, one or several local action elements and control tracts. A control tract has amplitude detector, DC amplitude and indication unit.

EFFECT: enhanced effectiveness of treatment; accelerated healing process.

4 cl, 3 dwg

Description

The invention relates to medicine, namely to physiotherapeutic devices.

An alternating electromagnetic field is a kind of physical factor.

An electromagnetic field formed by a sinusoidal signal in the frequency range 50 Hz - 1000 kHz passes through biological tissues as freely as through air. In addition, the electromagnetic field is practically not felt by the patient.

There is a method of physiotherapy by a general exposure of a patient to an electromagnetic field with a frequency of 50 Hz using two solenoid inductors [1].

Solenoid inductors, large and small, are usually worn on the lower back and neck, respectively, during the procedure.

The disadvantage of this method is the use of a low-frequency electromagnetic field.

It is known that at a frequency of 50 Hz, the alternating current induced in biological tissue propagates mainly through the vessels and interstitial gaps, while enveloping cells, since cell membranes at a frequency of 50 Hz have thousands of times greater resistance compared to intercellular fluid [2] .

Therefore, when applying a low-frequency electromagnetic field during therapeutic treatment, it is necessary to significantly increase the radiation power. So, for example, the stationary device “Magnetodiaflux” (Romania) has a power consumption of 150 VA.

Large currents flowing through the intercellular fluid have a negative effect on the body.

In recent years, the magnetotherapeutic units Magnitoturbatron (EOL) and UMTI-ZF (Hummingbird) have been developed [3].

These settings have a therapeutic effect on the entire body of the patient moving in space by low-frequency electromagnetic fields. The scope of these installations continues to expand.

The results of their use for the treatment and prevention of various diseases reveal more and more new opportunities [4].

However, the disadvantage of this method of therapeutic effects on the patient's body is the use of a low-frequency electromagnetic field.

The objective of the invention is to increase the therapeutic effect of treatment.

This is achieved by the fact that in the method of physiotherapy by acting on the patient’s living biological tissues with physical factors according to the invention, they act on the patient’s trunk with an electromagnetic field formed by an amplitude-modulated sinusoidal signal with a carrier frequency in the frequency range 100 kHz - 1000 kHz and a modulation frequency constantly changing in the range frequencies of 50-8000 Hz using an exposure element made in the form of a resonant oscillatory circuit and placed under the back, and simultaneously act with an electromagnetic field formed by an amplitude-modulated sinusoidal signal with a carrier frequency in the frequency range 100 kHz - 2000 kHz and a modulation frequency constantly changing in the frequency range 50 Hz - 8000 Hz using one or more of the exposure elements, each of which is made in the form of a resonant vibrational contour.

This is achieved by the fact that the therapeutic device containing a power source, a sinusoidal signal source and an exposure element, according to the invention, contains a sinusoidal signal source, which is made in the form of a self-oscillator containing an oscillating circuit, consisting of a capacitor connected in series and two inductors, the windings of which are included according to and placed on two flat dielectric frames, the device is additionally equipped with a source of low-frequency signal, the output of which by means of a modulator connected to the oscillator circuit, provided with a control path, the input of which is connected to the oscillator circuit, and which contains an amplitude detector connected in series, a DC amplifier and an indicator, additionally contains one or more influence elements, each of which contains a sinusoidal oscillation oscillator, while the inductive element of the oscillatory circuit of the oscillator simultaneously acts as a radiator, the circuit of the oscillator through an additional m the modulator is connected to the output of the low-frequency signal source, each exposure element is equipped with a control path, the input of which is connected to the circuit of the corresponding oscillator, and which contains an amplitude detector, a DC amplifier and an indicator connected in series, the device contains a timer and an audio indication element.

The essence of the invention lies in the fact that in the method of physiotherapy, by acting on the biological tissues of the patient with physical factors, they act on the patient’s trunk with a high-frequency electromagnetic field formed by an amplitude-modulated sinusoidal signal with a carrier frequency in the frequency range 100 kHz - 1000 kHz and a constantly changing modulation frequency in the range frequencies of 50 Hz - 8000 Hz using an exposure element made in the form of a resonant oscillatory circuit and placed under the back. They are simultaneously affected by a locally high-frequency electromagnetic field formed by an amplitude-modulated sinusoidal signal with a carrier frequency in the frequency range 100 kHz - 2000 kHz and a constantly changing modulation frequency in the frequency range 50 Hz - 8000 Hz using one or more of the exposure elements, each of which contains a resonant oscillatory circuit.

Figure 1 shows a functional diagram of a device for physiotherapy; figure 2 shows the element of impact on the patient's body; figure 3 shows the local element of the impact.

The device for physiotherapy contains an exposure element 1, comprising inductors 2 and 3, the windings of which are placed on separate flat dielectric frames and connected in series and in accordance. The windings through a capacitor 4 are connected to a circuit of the oscillator 5. The frequency of the oscillator is determined by the parameters of the elements of the oscillating circuit, namely, the magnitude of the inductance of the coils 2 and 3 and the capacitance of the capacitor 4. The circuit of the oscillator 5 is connected via the modulator 6 to the output terminals of the low-frequency signal source 7.

The carrier frequency of the oscillator 5 is selected in the frequency range 100 kHz - 1000 kHz. The source of the low-frequency signal 7 produces a signal with a constantly changing frequency in the frequency range 50 Hz - 8000 Hz. The exposure element 1 contains a control path of the high-frequency signal 8, comprising in series an amplitude detector 9, a DC amplifier 10 and an indicator 11 made in the form of an LED. All elements of the device circuit are powered by a power source 12, which can be battery or mains.

A device for physiotherapy contains one or more local exposure elements 13.

The local exposure element comprises an inductor 14, which is connected via a capacitor 15 to the circuit of the oscillator 16. The frequency of the oscillator 15 is determined by the magnitude of the inductance of the coil 14 and the capacitance of the capacitor 15.

The carrier frequency of the oscillator 15 is selected in the frequency range 100 kHz - 2000 kHz. The winding of the inductor 14 can be placed on a flat dielectric frame, on the lateral surface of a cylindrical dielectric frame, on a rod ferrite core, etc.

The impact element 13 is provided with a control path for the high-frequency signal 17 connected to the circuit of the oscillator 16, and which contains an amplitude detector 18 connected in series, a DC amplifier 19 and an indicator 20. The circuit of the oscillator 16 is connected to the output terminals of the source of the low-frequency signal 7 by means of a modulator 21 1, comprising coils 2 and 3, a capacitor 4, a circuit of a self-oscillator 5, a circuit of a modulator 6 and a circuit of a control path 8, is made as a separate functional element nta and through a cable is connected to a low-frequency signal source 7 and a power source 12.

Each local exposure element 13, containing an inductor 14, a capacitor 15, a circuit of an oscillator 16, a circuit of a control path 17 and a circuit of a modulator 21, is made as a separate functional element and is connected via a cable to a source of low-frequency signal 7 and a power source 12.

As a source of a low-frequency signal, a generator with a swinging frequency in the frequency range of 50 Hz - 8000 Hz or a sound reproducing player can be used. In the latter case, the device may have a number of low-frequency signal programs.

Figure 2 shows the impact element 1, with which the effect on the patient's body.

Impact element 1 contains a dielectric housing 22, at the bottom of which dielectric frames 23 and 24 are fixed with windings 2 and 3 placed on them. Each of the frames is made in the form of radially arranged petals with a gap, the winding is made in the form of a spiral, with the wire of each coil of a spiral alternately bends around all the petals, and from the coil and round, the wire bends around one or the other side of the petal. The number of petals is odd.

At the bottom of the housing 22, a board 25 is fixed with elements of circuits of the oscillator 5, modulator 6, control path 8 installed on it. In the side wall of the housing 22 there is a hole in which the LED indicator 11 is installed. The action element 1 is connected to the power source by cable 26 12 and the source of the low-frequency signal 7. On top of the housing 22 is closed by a dielectric cover 27.

Figure 3 shows an embodiment of a local exposure element 13 containing an inductor, the winding of which is placed on the side surface of the dielectric frame made in the form of a cylinder 28. The winding 14 is wound on the side surface of the frame in one layer and made by a power transmission line - 16 × 0, 07.

A dielectric housing 29 is mounted on the frame 28, in which a board 30 with the circuit elements of the oscillator 16, the control path 17 and the modulator 21 mounted thereon is mounted.

On the side wall of the housing 29 there is a hole in which the LED indicator 20 is mounted. The circuit board 30 is connected via a cable 31 to a power source 12 and to a low-frequency signal source 7. The housing 29 is closed by a cover 32.

A device for physiotherapy works as follows.

When the power is on, the oscillator 5 of the exposure element 1 generates high-frequency oscillations with a carrier frequency in the frequency range 100 kHz - 1000 kHz, which are modulated by amplitude with the help of modulator 6. The modulation signal comes from the output of the low-frequency signal source 7.

If there is a high-frequency signal, the LED indicator 11 lights up. Inductors 2 and 3 of the action element 1 act as a radiator of electromagnetic waves in the surrounding space.

At the same time, the oscillator 16 of the local influence element 13 generates high-frequency oscillations with a carrier frequency in the frequency range 100 kHz - 2000 kHz, which are modulated by amplitude with the help of modulator 21. The modulation signal is supplied to the modulator from the output of the low-frequency signal source 7. In the presence of a high-frequency signal, the LED indicator 20 is lit.

The inductor 14 of the exposure element 13 acts as a radiator of electromagnetic waves in space.

The method of physiotherapy is as follows.

The impact element 1 is placed on the mattress, which is laid on a wooden bed. Above the impact element 1 is closed with foam and a sheet. After the operation, the patient is laid on a sheet so that his back is placed above the exposure element 1. A sterile napkin is placed on top of the area of damaged biological tissues, on which a contact element is mounted or over which the local exposure element is suspended 13.

Turn on the power of the device.

The procedure time is set within 20-30 minutes, but not more than 45 minutes. During the day, 2 procedures can be performed with an interval of 6-8 hours.

The device can be used with a regulated voltage source. The electric field strength of each of the emitters of the exposure elements is proportional to the magnitude of the supply voltage. In this case, each procedure is carried out in two stages.

For example, the first stage is 15 minutes, the supply voltage is And ₁ , the second stage is 15 minutes, the voltage is And ₂ .

In this case, And ₂ = (1.5-2.0) · And ₁ .

The device may include a timer and an audio indication element.

For local exposure to the abdomen, chest, the local exposure element contains an inductor, the winding of which is placed on a flat dielectric frame, which is made in the form of radially arranged petals with a gap.

For local impact on the head, neck, limbs, the local exposure element contains an inductor, the winding of which is placed on the side surface of the dielectric frame, which is made in the form of a cylinder.

In case the bed is metal, it is necessary to put 2-3 mattresses on the bed grid, and then place the impact element 1 on top.

As a result of treatment of patients with damaged biological tissues, the proposed method of therapy and a device for its implementation reduces the healing time of damaged tissues.

Favorably passes the clinical course of the wound process.

Restoring the integrity of the structures occurs with the formation of more obscure scar tissue.

The proposed method of therapeutic treatment reduces the rehabilitation of patients, provides an acceleration of the course of reparative processes by more than two times.

The method and device have been experimentally tested in medical institutions of Omsk.

Sources of information

1. G.R. Soloviev. Magnetotherapy equipment. M .: Medicine, 1991, p. 153-154, Fig. 53.

2. M.I. Gurevich et al. Impedance reoplethysmography. Kiev: Science. Dumka, 1982, p. 18.

3. New industrial technologies. Issue No. 6 (299), 2000, Moscow: Minatom, p. 44.

4. New industrial technologies. Issue No. 4-5, 1998

Claims (4)

1. The method of physiotherapy, carried out by exposure to living biological tissues of the patient with physical factors, characterized in that they act on the patient’s body with an electromagnetic field formed by an amplitude-modulated sinusoidal signal with a carrier frequency in the range of 100 - 1000 kHz and a modulation frequency in the range of 50 - 8000 Hz using an exposure element containing an emitter, which is made in the form of a resonant oscillatory circuit, and placed under the back, and simultaneously act electromagnetic it formed an amplitude modulated sinusoidal signal with a carrier frequency in the range 100 - 2000 kHz and the modulation frequency in the range 50 - 8000 Hz with the aid of one or more elements of the impact, each of which includes an emitter which is configured as a resonant oscillator circuit. 2. A device for therapeutic treatment, containing a power source, a sinusoidal signal generator and an exposure element, characterized in that the sinusoidal signal generator is made in the form of an oscillator containing an oscillating circuit, consisting of a capacitor connected in series and two inductors, the windings of which are included according to In this case, the windings simultaneously serve as the emitter of the exposure element, the device is additionally equipped with a source of low-frequency signal, the output of which it is connected to the oscillator circuit by means of a modulator, equipped with a control path, the input of which is connected to the oscillator circuit and which contains an amplitude detector, a DC amplifier and an indicator connected in series, additionally contains one or more local influence elements, each of which contains a sinusoidal oscillation oscillator, when this inductive element of the oscillatory circuit of the oscillator simultaneously acts as a radiator, the circuit of the oscillator by means of A modulator is connected to the output of a low-frequency signal source, each exposure element is equipped with a control path, the input of which is connected to the circuit of the corresponding oscillator and which contains an amplitude detector, a direct current amplifier, and an indicator connected in series. 3. The device according to claim 2, characterized in that the local influence element contains an inductor acting as a radiator, the winding of which is placed on a flat dielectric frame, which is made in the form of radially arranged petals with a gap, and is made in the form of a spiral, it envelops everything one by one petals, from coil to coil, the wire goes around one or the other side of each petal. 4. The device according to claim 2, characterized in that the local element of influence contains an inductor, the winding of which is placed on the side surface of the dielectric frame having the shape of a cylinder.

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