RU2051703C1 - Physiotherapy device - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: physiotherapy device consists of oscillator of electromagnetic oscillations, modulator, device for bringing of electromagnetic oscillations to patient, electric signal transducer, nonelectric signal transducer and program-control device. Novelty consists in introduction into physiotherapy device of transducers of electric and nonelectric signals and program-control device. Introduction of above devices provides for modulation of high-frequency oscillations acting on patient's organism in synchronism and phase with electric processes taking place in parient's organism. EFFECT: higher efficiency of application of electromagnetic oscillations in physiotherapy and reduced treatment terms. 5 cl, 1 dwg

Description

 The invention relates to medicine, namely to physiotherapy, and can also be used in veterinary medicine.

 A device is known for treating injuries and diseases of the musculoskeletal system (auth. St. N 1090421 M), including a generator of modulated electromagnetic oscillations of the millimeter wavelength range ГЧ-100 and a horn emitter. The disadvantage of this device is the lack of communication between the modulation parameters (shape, frequency) and internal processes of the body, which reduces the therapeutic effectiveness of the use of electromagnetic waves.

 It is also known a device for treating a high frequency electric field UHF-80-01 ("Undaterm"), consisting of an electromagnetic oscillation generator and a device for outputting electromagnetic oscillations to a patient [1] The disadvantage of this device is the inability to modulate electromagnetic oscillations, which reduces therapeutic possibilities.

 The closest in technical essence to the claimed is a device for treatment with a pulsed electric field of ultrahigh frequency "Impulse-3", consisting of a generator of electromagnetic waves with a frequency of 40, 68 MHz, a modulator and a device for outputting electromagnetic waves to a patient (capacitor plates [1, 2] A known device is the lack of connection between the generated pulses and internal electromagnetic processes in the patient’s body and, as a result, long treatment periods for some types of abnormalities.

 The organization of such a relationship allows more purposeful and efficient use of the energy of the electromagnetic field when exposed to tissues and organs and, accordingly, reduces the treatment time.

 The solution to this problem is achieved by the fact that in the physiotherapy device containing a series-connected generator of electromagnetic waves, a modulator and a device for outputting electromagnetic waves to the patient, an additional sensor of an electric signal of the heart and a sensor of a non-electric signal of the heart are connected, connected to a program-control device, the output of which is connected to modulator.

 The device for outputting electromagnetic waves to a patient is made in the form of a resonant inductor or in the form of an induction cable.

 The electromagnetic oscillation generator is made in the form of a high-frequency current generator, and the electromagnetic oscillation output device for the patient is made in the form of a hollow sealed glass electrode in which rarefied gas is located.

 The electromagnetic oscillation generator is made in the form of a microwave oscillator or an extremely high-frequency oscillation generator, and the device for outputting electromagnetic oscillations to a patient is made in the form of a waveguide or in the form of a horn emitter.

 The generator of electromagnetic waves is made in the form of an optical quantum generator, and the device for outputting electromagnetic waves to a patient is made in the form of a fiber.

 UHF electromagnetic oscillations widely used in medical practice, are well absorbed by body tissues. Changing the intensity of oscillations in accordance with the body's own electrical processes increases the body's susceptibility to the therapy process. Introduction to the known device of the sensor of the electrical signal of the heart during the therapy session allows the formation of therapeutic UHF pulses synchronously and in phase with the body's electrical signals. However, the direct use of this sensor as a source of a modulating signal is impossible due to the fact that UHF pulses are perceived by the sensor as signals much stronger than the signals of the body. The electrical feedback that occurs due to the induction of UHF currents in the body is eliminated by using a sensor of a non-electric signal of the heart and a program-controlling device.

 In the range of UHF vibrations, two methods of influencing a patient are distinguished; the effect of the electrical component of electromagnetic waves (UHF therapy) and the effect of the magnetic component (inductothermy). The technical implementation of these methods differs only in the type of radiation output device: if an open capacitor is used as such in UHF therapy, then inductothermy uses various types of inductors, including resonant inductors and cable inductors.

 In the practice of physiotherapy use a wide range of frequencies of electromagnetic waves. So, in the range of 20 500 kHz, ultratonotherapy and darsonvalization are used, which have the characteristic form of an electromagnetic oscillation output device, hollow sealed glass electrodes in which air or another gas, such as neon, is under reduced pressure.

 In the range of 300 MHz to 300 GHz, microwave oscillations approach the light emission in terms of wavelength and propagation pattern, therefore their use in physiotherapy is associated with the design of an electromagnetic wave output device in the form of a waveguide or horn emitter.

 The highest frequencies of electromagnetic waves used in physiotherapy are generated by optical quantum generators (lasers). The radiation of these generators, depending on the wavelength, can be visible or invisible, but in any case, optical fibers are used as a radiation output device.

 The drawing shows a diagram of the proposed physiotherapy device.

 The device includes a series-connected generator of electromagnetic waves, a modulator, a device for outputting electromagnetic waves to a patient, a sensor of electrical signals of the heart and a sensor of non-electrical signals of the heart connected to the program-control device, the output of which is connected to the modulator.

 The device operates as follows. When the generator is turned off, the signals of the electric and non-electric sensors of the heart signals are simultaneously fed to the program control device, which determines the procedure for restoring the signals of the sensor of electrical signals (e.g., electrocardiograms) from signals from the sensor of non-electrical signals of the heart (e.g., cardiophonograms from the microphone). As a result of such restoration, the program-controlling device generates an output signal similar to the electric signal of the heart and synchronous to it in time according to the sensor signal of non-electric signals of the heart. Then the sensor of electrical signals of the heart is turned off and the program control device restores its signal from the signals of the sensor of non-electrical signals of the heart. The electrical signal of the heart restored in this way is fed to a modulator, which, upon switching on the generator, modulates the radiation intensity of the electromagnetic oscillation generator synchronously and in phase with the processes occurring in the body. At the same time, a wide range of devices can be used as an electromagnetic oscillation generator: from high-frequency apparatus to quantum optical generators. Next, the modulated radiation is supplied to the desired area of the body through the appropriate output device of electromagnetic waves.

 The therapeutic effectiveness of the proposed device is provided by approximating the parameters of the influencing factor of the change in the intensity of electromagnetic waves over time, to the body's own physiological processes.

Claims (5)

 1. PHYSIOTHERAPY DEVICE, comprising a series-connected generator of electromagnetic waves, a modulator and a device for outputting electromagnetic waves to a patient, characterized in that an additional sensor of an electric signal of the heart and a sensor of a non-electric signal of the heart are connected to it, connected to a program-control device, the output of which is connected to modulator.  2. The device according to claim 1, characterized in that the device for outputting electromagnetic waves to a patient is made in the form of a resonant inductor or in the form of an induction cable.  3. The device according to claim 1, characterized in that the generator of electromagnetic waves is made in the form of a generator of high frequency currents, and the device for outputting electromagnetic waves to a patient is in the form of a hollow sealed glass electrode in which rarefied gas is located.  4. The device according to claim 1, characterized in that the generator of electromagnetic waves is made in the form of a microwave generator, and the device for outputting electromagnetic waves to a patient is in the form of a waveguide or in the form of a horn emitter.  5. The device according to claim 1, characterized in that the generator of electromagnetic waves is made in the form of an optical quantum generator, and the device for outputting electromagnetic waves to a patient is in the form of a fiber.

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