RU2175874C2 - Method and device for treating the cases of central nervous system function disorders - Google Patents

Abstract

FIELD: medicine; medical engineering. SUBSTANCE: method involves administering radiation with wavelength equal to 0.8-1.3 mcm, 0.5-6 Mw/cm² power density to lesion focus projections. Pulse and breathing pickups signals are modulated and tremor frequency impulse signals are modulated with additional modulation frequency of 22.5 ± 1 kHz. Device has N laser radiation emitters, carrying frequency impulse oscillator and commutable adder. EFFECT: enhanced effectiveness of treatment. 6 cl, 2 dwg

Description

 The invention relates to medicine, in particular to neuropathology, and can be used in the treatment of the consequences of birth and other injuries of the brain or spinal cord, with paresis and paralysis, strokes and various ischemic disorders of the functions of the nervous structures.

 Known methods of physiotherapy and drug treatment of traumatic and ischemic lesions of nerve structures [1-4]. They are far from always effective, especially in the development of paralysis, demyelinating processes and in violation of the functions of the musculoskeletal system. The use of electrical stimulation [4] of various types, including through electrodes implanted in the pathology area, in the existing methods is not consistent with the energy supply of cell responses and therefore does not guarantee the prevalence of amplification of restoration processes over destructive ones. In our studies, it is proved that only biocontrolled chronophysiotherapy provides a guaranteed increase in plastic processes. For this, effects should be amplified only during an increase in the energy resources of stimulated cells, which corresponds to increased blood supply to the tissue, opening of capillaries above active cells, increased transport of energy metabolites and oxygen diffusion in them. In automatic mode, this is possible not by selecting any frequency of exposure, but only by control signals from the pulse and respiration sensors of the patient himself [5-18].

 A known method of treating dysfunctions of the central nervous system, which consists in acting on the lesion with pulses modulated by pulse and respiration sensors and signals from a tremor pulse generator, implemented in a device containing a pulse sensor in series, a first driver amplifier, a first potentiometer, medium the output of which is connected to the first output of the adder, and the pressure sensor, the second amplifier-former, the second potentiometer, medium whose first output is connected to the second input of the adder, a tremor frequency pulse generator and a power amplifier [5].

 Due to the automatic synchronization of enhancing the physiotherapeutic effect with the phases of increasing blood supply to the tissue, biosynthetic recovery processes are steadily stimulated, as proved by the treatment of trophic ulcers, periodontal disease, gastric and duodenal ulcers, and restoration of nerve fiber conduction in Stargardt’s disease and other diseases [7-18] .

Using the method and device for modulating laser infrared radiation allowed us to stably normalize not only the level, but also the spectrum of blood flow and microcirculation rhythms at the pathology site. It was determined that for stable normalization of blood flow and microcirculation at the site of pathology, simultaneous laser exposure on an area of at least 20-30 cm ^{2 is} necessary.

 A comparative assessment of the results of such an exposure with a conventional laser exposure of the same parameters without biocontrol was carried out using rheography, micropletismography and Doppler fluometry using the Coral apparatus. Laser exposure compared with other types of physiotherapy in biocontrol mode was most effective for relieving edema and inflammation. To restore the balance of the arterial and venous parts of the capillary bed, taking into account hypoxia, arterial or venous hyperemia, the device [5] adjusts the ratio of modulation depths according to pulse, respiration, and tremor signals (carrier frequency 7-13 Hz).

 However, the disadvantage of these known methods and devices using laser irradiation on the brain and cervical spinal cord are limited functionality due to insufficient power density and other parameters of laser irradiation on the deep tissues of these organs. The results of our research in the treatment of other diseases have proved that for the stable normalization of blood flow and microcirculation at the site of pathology of deeply located tissues of internal organs of influence through biologically active points and Zakharyin-Ged zones, the use of the known method and device is not effective enough.

In technical essence, the closest method for the same purpose is a method of treating children with neuromotor disorders with laser radiation due to peritoneal damage to the central nervous system, in which they are exposed to low-intensity laser radiation with a wavelength of 0.89 + 0.02 μm, a pulse repetition rate of 3000 Hz, pulse power of 0.7 W, contact to the cervical segmental zones lasting 32 s (16 on each side of the spine), in stages from the 2nd to the 7th paravertebral segments for two days per Dyje two segments, daily, for 10 days (see. US Pat. RF N2111026, cl. A 61 N 5/06 from 09.08.1994 g)
However, this technical solution has limited functionality due to insufficient power density and other parameters of laser exposure to deep tissue at the site of the pathology.

 The technical result is the expansion of functionality in the treatment of disorders of the central nervous system to affect the deep tissue of the neck, brain and spinal cord.

This is achieved by the fact that in the method for treating disorders of the central nervous system by exposure to pulsed laser radiation according to the invention, the projection of the lesion by radiation with a wavelength of 0.8 - 1.3 μm, a power density of 0.5-6 mW / cm ² s by modulating with pulse and respiration sensor signals and tremor frequency pulse signals with additional modulation with a frequency of 22.5 ± 1 kHz, laser exposure sessions are carried out for 300 ± 30 beats of the patient’s pulse daily for 10 to 15 days, at the stage of removing inflammation I and the edema session are carried out in the first half of the day, and at the stage of stimulation of biosynthetic recovery processes and enhance regeneration of nerve fibers in the second half of the day in the evening, and in the device for treating central nervous system dysfunctions containing a pulse sensor connected in series, the first amplifier a former, a first potentiometer, the middle output of which is connected to the first input of the adder, and a breathing sensor, a second amplifier former, a second potentiometer, medium the bottom output of which is connected to the second input of the adder, a pulse generator and a power amplifier, according to the invention N laser emitters are introduced, where N is an integer, a carrier pulse generator and a switched adder, the adder output through a power amplifier connected to the first input of a switched adder, which the second and third inputs of which the outputs of the pulse generator and the pulse generator of the carrier frequency are connected, respectively, the input of each laser emitter is connected to the output of the switched a mumator, and the outputs of the laser emitters are located in the head or spine of the patient in the projection of the pathology focus, in addition, each laser emitter at the output has the following parameters:
pulse power 30-200 W;
wavelength in the range of 0.8-1.3 microns,
moreover, the switched adder can be made in the form of series-connected adder and switch, the inputs of the adder are the first and second inputs of the switched adder, the third input of which is combined with the control input of the switch, the output of which is the output of the switching adder.

 The essence of the invention lies in the fact that the use of laser emitters with appropriate parameters, a carrier-frequency pulse generator and a switched adder, connected appropriately, made it possible to provide the necessary mode of exposure to deep tissue of the neck, brain and spinal cord over a large area for stable normalization of blood flow and microcirculation.

 Comparison of the proposed method and device with the closest analogs allows us to judge the compliance with the criterion of "novelty", and the absence in the known analogues of the distinguishing features of the claimed method and device indicates compliance with the criterion of "inventive step".

 Preliminary experimental and clinical trials allow us to judge the possibility of wide industrial use.

 In FIG. 1 presents a functional block diagram of the inventive device that implements the proposed method of treatment.

 In FIG. 2 - time diagrams of the operation of the device.

 The device comprises a pulse sensor 1 connected in series, a first driver amplifier 2, a first potentiometer 3 and a breathing sensor 4 connected in series, a second driver amplifier 5, and a second potentiometer 6.

 The middle terminals of the first and second potentiometers 3 and 6 are connected to the first and second inputs of the adder 7, the output of which through the power amplifier 8 is connected to the first input of the switched adder 9, the outputs of the generator 10 pulses of the tremor frequency and the generator 11 of the carrier pulses are connected to the second and third inputs frequencies 22.5 ± 1 kHz.

 The output of the switched adder 9 is connected to the inputs of the laser emitters 12-1 ... 12-N (where N is an integer).

 The switched adder 9 can be made in the form of series-connected adder 13 and the switch 16. The inputs of the adder 13 are the first and second inputs of the switched adder 9, the third input of which is combined with the control input of the switch 14, the output of which is the output of the switched adder 9.

The output of each laser emitter should have the following parameters (the range of acceptable values is determined experimentally):
the irradiation area of 10-50 cm ² ;
average power density of 0.5-6 mW / cm ² ;
pulse power 30-200 W;
wavelength in the range of 0.8-1.3 microns.

As a laser emitter, we can take a laser emitter with an output laser matrix used in the well-known ALTO-therapist-bio device (see p. 19), with the following output parameters: wavelength 0.98 μm, pulse power 100 W, average power density 0.5-6 mW / cm ² , irradiation area 30 cm ² .

Device operation
The output laser matrices of laser emitters 12-1 ... 12-N are located in the projection of the focus of the pathology of the brain or around the neck with pathology of the cervical spinal cord. The number of laser emitters 12-i used can be different and is determined by the depth and area of the location of the pathology focus.

 The tremor frequency pulse generator 10 is tuned to a frequency of 8 Hz.

 Typically, the frequency of the generator 10 is set arbitrarily per session to eliminate the addictive effect.

 Next, using the potentiometers 3 and 6, set the sensitivity threshold, as well as the necessary parameters of the pulses.

 The first amplifier-driver 2 converts the electrical signal from the pulse sensor 1, which is an optocoupler pair, into voltage pulses. Moreover, each negative impulse corresponds to one heart beat of the patient.

 The second driver amplifier 5 converts the electrical signal from the respiration sensor 4 into the voltage pulses shown in FIG. 3.

 In this case, when inhaling, the voltage at the output of the amplifier-former 5 increases, and when exhaling, it decreases.

 The voltage from the outputs of the first and second amplifiers-shapers 2 and 5 through the first and second potentiometers 3 and 6 are fed to the inputs of the adder 7, and from its output through the amplifier 8 power to the first input of the switched adder 9. The second and third inputs of the last receive pulses from generators 10 and 11 pulses of tremor frequency and carrier frequency.

 The pulses from the output of the power amplifier 8 and the generator 10 pulses of the tremor frequency are summed on the adder 13 and from its output through the switch 14, controlled from the generator 11 pulses of the carrier frequency, converted into pulses with a frequency of 22.5 ± 1 kHz, are fed to laser emitters 12- 1 ... 12-N.

 Sessions of laser exposure are carried out for 10 to 15 days.

 At the stage of removing inflammation and edema, a session lasting about 5 minutes (using a biotimer of 300 strokes of the patient's pulse) is carried out in the first half of the day, when the sympathetic tone is higher.

 At the stage of stimulating biosynthetic recovery processes and enhancing the regeneration of nerve fibers, the session is carried out in the afternoon in the evening, when the parasympathetic tone is higher and the transition to the oxidation of fatty acids in the circadian futile energy cycle is carried out.

 Duration of the course from 10 to 15 daily procedures is individually controlled according to clinical results.

 If necessary, regeneration of nerve fibers and restoration of coordination of movements, repeat courses of laser chronotherapy in biocontrol mode with an interval of 1 month. This treatment does not exclude complex traditional treatment using medications for individual indications. Other types of physiotherapy are not used.

 Studies have shown that, compared with existing methods of treatment, the proposed method and device can provide effective treatment to patients for whom traditional methods of treatment were ineffective.

Examples of specific use of the proposed device and method (extract from medical records)
Example No. 1.

 Patient P., 2.5 years. Diagnosis: cerebral palsy. Deep retardation of psychomotor development. Spastic tetrapligia.

 The patient was treated according to the above method for 15 days.

 As a result of conducting 1 course of treatment, the child's spastic effects, hypersolation decreased, the child began to sit.

 After a repeated course, a month later the spastic phenomena practically disappeared, arbitrary movements of the upper extremities appeared, the child confidently sits without support, and articulate speech skills appeared.

 Example No. 2.

 Patient S., 64 years old. In 1993, she suffered a cerebrovascular accident. Complaints of numbness of the left half of the body. Diagnosis: Atherosclerosis, cerebrovascular accident, arterial hypertension. Left-side hemiparesis.

 The patient underwent 4 courses of therapy according to the above method for 2.5 months with 10-day breaks.

 As a result of the treatment, the patient's condition improved significantly, confidence appeared when walking (normalization of the motor stereotype), coordination of movement improved, friendly movement of arms and legs appeared. Blood pressure stabilized, complex movements appeared in the left hand.

 Thus, the proposed method and device can expand the functionality in the treatment of disorders of the central nervous system to affect the deep tissue of the neck, brain and spinal cord.

LITERATURE
1. Handbook of neuropathology. M .: Medicine, 1981, 320 p.

 2. Karpov V.A. Therapy of nervous diseases. M .: Medicine, 1987, 512 p.

 3. Special physiotherapy. Sofia: Medicine and Physical Education, 1972, 522 p.

 4. Yasnogorodsky V.G. Electrotherapy. M .: Medicine, 1987, 240 p.

 5. Zaguskin S. L. Device for physiotherapy. RF patent N 2033204. Priority 4.09.89.

 6. Zaguskin S.L., Zubko Yu.N. Device for electrotherapy. RF patent N 2067461. Priority 4.12.92.

 7. Zaguskin S. L. Biorhythms: energy and management. / Preprint IOFAN N 236, M., 1986, 56 p.

 8. Komarov F.I., Zaguskin S.L., Rapoport S.I. Chronobiological direction in medicine: biocontrolled chronophysiotherapy // Therapist. Archive, N 8 - 1994 - C. 3-6.

 9. Zueva M.V., Tsapenko I.V., Dniester G.I., Zaguskin S.L. Electroretinographic evaluation of the effectiveness of electrical stimulation of the retina by the method of biocontrolled chronophysiotherapy for Stargardt's disease. // Q. health resort., 1994, N 5. - S.13-15.

 10. Slyusarev S. L., Rusakov V. I., Bubnova V. I., Zaguskin S. L. Biocontrolled chronophysiotherapy of trophic ulcers of the lower extremities against the background of chronic venous insufficiency. // Clinical medicine, 1996, N 6, p. 55-57.

 11. Barishevskaya T. I., Nyanchuk T. B. Vasilieva E.E., Zaguskin S.L. Pulsed infrared laser therapy of the median nerve neuritis in biofeedback mode. // Q. resort., 1996, N 3, p. 26-28.

 12. Rusakov V.I., Zaguskin S.L., Bubnova V.I., Sangichev A.V., Slyusarev S.L., Chernogubova E.A. A method for the treatment of inflammatory diseases of the male genital organs and lower urinary tract. // Application N 95103024. Priority 03.03.95, pos. resolved. 07/27/98

 13. Zaguskin S.L., Oraevsky V.N., Rapoport S.I., Grigoryev A.I. The method of controlling pressure in the sections of the cuff of the pneumatic massage. // RF patent N 2103974, priority 27.09.96.

 14. Rapoport S.I., Rasulov M.I., Zaguskin S.L., Malinovskaya N.K., Setov I.V. Method for the treatment of gastric ulcer and 12 duodenal ulcer. AS of the USSR from 05.17.91. N 1736512. Priority 06.22.90.

 15. Rusakov V.I., Zaguskin S.L., Slyusarev S.L., Bubnova V.I. A method of treating trophic ulcers. AS of the USSR N 1750702 dated 03/28/91, priority 01/15/90.

 16. Zaguskin S. L. Chronobiological direction of laser medicine. // New directions in laser medicine. Int. conf. M., 1996 .-- S. 296-297.

 17. Zaguskin S.L. The equipment and methods of chronodiagnostics and biocontrolled chronophysiotherapy. // Palliative medicine and rehabilitation, 1998, N 4-5. - S. 12-13.

 18. Zaguskin S.L. Is a prognosis and guarantee of a positive effect of laser therapy possible? // All-Russian. scientific and practical. conf. in quantum therapy. Digest of articles. - M., 1998 .-- S. 30-32.

 19. Instructions and technical passport for the device "ALTO-therapist-bio", M., Firm "ALTO", 1996.

 20. Instructions and technical passport for the apparatus "Harmony". - NPO Elecon, Kazan, 1998.

Claims (6)

1. A method of treating disorders of the central nervous system by exposure to pulsed laser radiation, characterized in that they effect the projection of the lesion by radiation with a wavelength of 0.8-1.3 μm, a power density of 0.5-6 mW / cm ² , s modulation by signals of pulse and respiration sensors and signals of pulses of tremor frequency with additional modulation with a frequency of 22.5 ± 1 kHz.  2. The method according to p. 1, characterized in that the laser exposure sessions are carried out for 300 ± 30 beats of the patient’s pulse daily for 10-15 days.  3. The method according to claim 1 or 2, characterized in that at the stage of removing inflammation and edema, the session is carried out in the first half of the day, and at the stage of stimulating biosynthetic recovery processes and enhancing the regeneration of nerve fibers in the second half of the day in the evening.  4. A device for treating dysfunctions of the central nervous system, comprising a serially connected pulse sensor, a first amplifier-driver, a first potentiometer, the middle output of which is connected to the first input of the adder, and a series-connected breathing sensor, a second amplifier-driver, a second potentiometer, an average output which is connected to the second input of the adder, a pulse generator and a power amplifier, characterized in that N laser emitters are introduced, where N is an integer, the pulse generator carries frequency and a switched adder, and the adder output through a power amplifier is connected to the first input of the switched adder, to the second and third inputs of which the outputs of the pulse generator and the pulse generator of the carrier frequency are connected, respectively, the input of each laser emitter is connected to the output of the switched adder, and the laser outputs emitters are located in the region of the head or spine of the patient in the projection of the focus of the pathology.  5. The device according to claim 4, characterized in that each laser emitter at the output has the following parameters: pulse power 30-200 W; wavelength 0.8-1.3 microns.  6. The device according to claim 4, characterized in that the switched adder is made in the form of series-connected adder and switch, the adder inputs being the first and second inputs of the switched adder, the third input of which is combined with the control input of the switch, the output of which is the output of the switched adder.

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