RU2221603C2 - Method and device for stimulating reparative bone tissue regeneration - Google Patents

Abstract

FIELD: medicine; medical engineering. SUBSTANCE: method involves treating ill area on extremity with longitudinal electromagnetic field which source is treatment element manufactured as inductance coil in postoperative period. Transverse electromagnetic field which source is the second treatment element manufactured as two inductance coils connected in series and in conformance with each other is applied concurrently with the longitudinal electromagnetic field. Each active element is a part of oscillation circuit in corresponding auto-oscillator. The auto-oscillators produce sinusoid oscillations modulated in amplitude with low frequency signal corresponding to carrying frequencies F₁ and F₂ in bandwidth of 1-10 Hz and modulation frequencies of 10 Hz- and F₃ and F₄ in bandwidth of 10-1000 Hz so that F₁ = F₃ and F₂ = F₄,. The procedure is carried out once a day during 20-30 min. The whole cycle is 10- 15 procedures long. The device has power supply source and action element producing longitudinal electromagnetic field as inductance coil and the second action element producing transverse electromagnetic field connected in series and in conformance with each other. The first auto-oscillator having the first action element, the second auto-oscillator having the second action element, the first and the second action element, the first and the second control circuit connected to the first and the second auto-oscillator and two low frequency modulators. Each auto-oscillator is connected to power supply source via corresponding modulator. The action elements are integrated within single functional unit. The device also has two dielectric carcasses manufactured as radially arranged leaflet gaps. Winding of each coil of the second action element is manufactured as spiral wound over corresponding dielectric carcass so that spiral wire envelops in turn this or that side of each carcass leaflet. Timer unit connected to power supply source is also available. EFFECT: enhanced effectiveness of treatment. 4 cl, 2 dwg

Description

 The invention relates to medicine, namely to traumatology and orthopedics.

 A known method of stimulating the reparative regeneration of bone tissue by low-frequency pulsed exposure of the affected area of the limb using metal electrodes. The disadvantage of this method is that the effect is carried out by the contact method and a low-frequency pulse signal is used [1].

 The closest in essence is a method of stimulating reparative regeneration of bone tissue, a description of which is given in [2].

 The method is carried out by repeated exposure to a diseased area of a limb in the postoperative period with electromagnetic oscillations by means of an exposure element.

 The impact element is made in the form of a winding of an inductor, which is an integral part of a parallel oscillatory circuit. The impact is carried out in a non-contact way by placing the diseased portion of the limb in the field of the winding of the inductance coil of the exposure element.

 If an inductor is used as an element of influence, the winding of which is placed on a cylindrical frame, a longitudinal electromagnetic field will affect the patient's limb. Medical practice has shown that in order to increase the therapeutic effect on a diseased limb, it is necessary to influence electromagnetic oscillations both longitudinal and transverse. The objective of the invention is to increase the therapeutic effect.

This is achieved by the fact that in the method of stimulating the reparative regeneration of bone tissue, including the exposure in the postoperative period to the affected area of the limb with a longitudinal electromagnetic field, the source of which is an exposure element made in the form of an inductor according to the invention, simultaneously with a longitudinal electromagnetic field they act with a transverse electromagnetic field , the source of which is the second exposure element, made in the form of two inductors, included last Accordingly and according to this, each of the exposure elements is included in the oscillatory circuit of the corresponding oscillator, oscillators generate sinusoidal oscillations, amplitude-modulated by a low-frequency signal, respectively, with carrier frequencies F ₁ and F ₂ in the frequency range 100-1000 kHz and modulation frequencies respectively F ₃ and F ₄ in the range of 10-1000 Hz, with F ₁ ≠ F ₂ and F ₃ ≠ F ₄ , the procedure is carried out once a day for 20-30 minutes, and the cycle is 10-15 procedures.

 In a device for stimulating reparative regeneration of bone tissue containing a power source and an action element forming a longitudinal electromagnetic field and made in the form of inductors, according to the invention, a second action element is introduced into it, forming a transverse electromagnetic field and made in the form of two inductors included sequentially and according to the first oscillator, in the oscillatory circuit of which the first exposure element is included, the second oscillator, in the oscillatory circuit ur which included second feedback element, the first and second control circuits connected respectively to the first and second oscillators and two low-frequency modulator, wherein each of the oscillators via respective modulator is connected to the power supply unit and feedback elements combined into a single functional unit.

 The essence of the invention lies in the fact that the stimulation of reparative regeneration of bone tissue is carried out in a non-contact manner by means of two exposure elements simultaneously, forming two electromagnetic fields perpendicular to each other.

 In the proposed device, a combined exposure element is used, containing one inductor, in which the winding is placed on the side surface of the cylindrical frame, and two coils, each of which the winding is placed on a flat frame, while the windings of these coils are connected in series and according to.

 Each inductive influence element is an integral part of the oscillatory circuit of its oscillator.

 The proposed method of stimulating reparative regeneration of bone tissue is as follows.

 In the postoperative period, the diseased portion of the limb is placed inside the combined exposure element, which contains the exposure elements of the longitudinal and transverse electromagnetic fields. The conclusions of the windings of the action elements are fed by signals of sinusoidal amplitude-modulated oscillations of a given amplitude with a carrier frequency in the range of 100-1000 kHz and a modulation frequency in the range of 10-1000 Hz. The procedure is carried out once a day and lasts 20-30 minutes. Perhaps the use of drugs before the procedure. The treatment cycle is 10-15 procedures. During the procedure, blood pressure and pulse are measured 15-20 minutes after the end of the procedure and every day following the procedure before the next session of exposure to the device.

 In FIG. 1 shows a functional diagram of a device for stimulating reparative regeneration of bone tissue; figure 2 shows the combined element of the impact.

 The device comprises a self-oscillator 1, consisting of an element of the impact of a longitudinal electromagnetic field 2, which is connected through a capacitor 3 to the circuit of the oscillator 4. The inductance of the winding of the action element 2, connected in series with the capacitor 3, forms an oscillatory circuit of the self-oscillator. The frequency of electromagnetic oscillations is determined by the parameters of the capacitor and inductance. A control circuit 5 is connected to the oscillator circuit, including a detector 6 connected in series, a DC amplifier 7, and a light indicator 8.

 The circuit of the oscillator by means of a modulator 9 is connected to the power element 10. The device comprises an oscillator 11 comprising an element of the action of the transverse magnetic field 12. The element of action 12 is made in the form of two inductors 13 and 14, the windings of which are connected in series and according to. The action element 12 is connected via a capacitor 15 to the circuit of the oscillator 16. The frequency of electromagnetic oscillations is determined by the inductance of the windings 13 and 14 and the capacitance of the capacitor 15. The circuit of the oscillator 16 is connected to a control circuit 17 containing a detector 18 connected in series, a DC amplifier 19, and a light indicator 20. The circuit of the oscillator 16 by means of a modulator 21 is connected to the battery 10. The device includes a timer 22 connected to the circuit of the battery 10. In figure 2 The combined impact element is depicted. The impact element contains a cylindrical dielectric frame 23, on the lateral surface of which is fixed the winding of the impact element of the longitudinal electromagnetic field 2. To the frame 23 by means of strips 24 and 25 are attached the frames of the coils 13 and 14 of the transverse electromagnetic field exposure element. Each of the coils contains a flat dielectric frame made in the form of petals arranged radially with gaps and a winding. The winding is made in the form of a spiral. The wire of each spiral alternately bends around all the petals, while from one turn to another the wire bends around one or the other side of each petal. The total number of petals M, where M = 5, 7, 9 ... an odd number. The outer diameter of the frame is 150 mm, the minimum diameter of the first turn is 40 mm. A housing 7, made of a dielectric, is mounted to the frame 23 by means of a strap 26, in which the circuits of the generators 1, 11, the control circuits 5 and 17, the circuits of the modulators 9 and 21 are mounted. The circuit of the timer 22 is part of the battery 10. The device is powered by batteries and from an alternating current main with a voltage of 220 V through a step-down transformer. The combined impact element using a cable 28 is connected to the battery 10.

The device operates as follows. The patient limb of the patient is placed inside the frame 23. Power is supplied to the device circuit. The oscillator 1 generates sinusoidal oscillations with a frequency of F ₁ amplitude-modulated by a frequency of F ₂ . Impact element 2 acts on biological tissues by a longitudinal electromagnetic field. At the same time, the oscillator 11 generates sinusoidal oscillations with a frequency of F ₃ amplitude-modulated by a frequency of F ₄ . The impact element 12 by means of windings 13 and 14 acts on a biological object by a transverse electromagnetic field. Frequency F ₁ ≠ F ₂ , frequency F ₃ ≠ F ₄ .

 All windings of inductors are carried out by a wire of the LEPKO 20 • 0.07 mark, the quality factor of each winding is at least 200 units. The presence of vibrations in each exposure element is controlled by control circuits 5 and 17. In the presence of vibrations, the LED lights up. After the procedure expires, timer 22 disconnects power from the generator circuits.

 The proposed method of stimulating reparative regeneration of bone tissue together with a device for its implementation allows you to create the most optimal mode of stimulation of reparative regeneration of bone tissue, accelerate the healing of soft tissue wounds, in addition, treatment time is significantly reduced by an average of 40-50% compared to conventional, providing with persistent clinical remission.

Sources of information
1. USSR author's certificate 554870, cl. A 61 N 1/00, 1975

 2. RF patent 2165272, cl. 7 A 61 N 2/04.

Claims (4)

1. A method of stimulating reparative regeneration of bone tissue, including the exposure in the postoperative period to a sore area of a limb with a longitudinal electromagnetic field, the source of which is an exposure element made in the form of an inductor, characterized in that simultaneously with the longitudinal electromagnetic field, a transverse electromagnetic field is applied, the source of which is the second exposure element, made in the form of two inductors connected in series and according to, when that each of the elements effects included in the oscillation circuit of the corresponding oscillator forming sinusoidal oscillations, F ₁ and F ₂ the amplitude-modulated baseband signal respectively with carrier frequencies in the range of 100 - 1000 kHz and the modulation frequencies, respectively, F ₃ and F ₄ in the range 10 - 1000 Hz, with F ₁ ≠ F ₂ and F ₃ ≠ F ₄ , the procedure is carried out once a day for 20-30 minutes, and the cycle is 10 - 15 procedures. 2. Device for stimulating reparative regeneration of bone tissue, containing a power source and an exposure element forming a longitudinal electromagnetic field and made in the form of an inductor, characterized in that a second exposure element is introduced into it, forming a transverse electromagnetic field and made in the form of two inductors connected in series and according to the first oscillator, in the oscillatory circuit of which the first exposure element is included, the second oscillator, in the oscillatory The plant of which includes the second exposure element, the first and second control circuits connected respectively to the first and second oscillator, and two low-frequency modulators, with each of the oscillators connected to a power supply unit through a corresponding modulator, and the exposure elements combined into a single functional unit. 3. The device according to claim 2, characterized in that two dielectric frames are introduced, made in the form of radially arranged petals with gaps, while the winding of each coil of the second exposure element is made in the form of a spiral wound on the corresponding dielectric frame so that from turn to the coil of the spiral goes around one or the other side of each petal of the frame. 4. The device according to PP.2 and 3, characterized in that the timer is entered, connected to the power supply.

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