RU2264234C1 - Method for craniospinal electromagnet therapy and device for its realization - Google Patents

Abstract

FIELD: medicine, neurology, physiotherapy.

SUBSTANCE: contact action by electric current on the region of the forehead and mastoid processes and contact action by magnetic field along the vertebral column are performed simultaneously. The action on the region of the forehead and mastoid processes is effected by direct current, 1 to 7 mA strong, modulated by low-frequency square pulses. A frequency within 0.5 to 550 Hz causing a change of the electrodermal resistance in the biologically active points is assigned as operating frequency. Action along the vertebras is effected by a pulse field with amplitude of magnetic induction up to 1 T and pulse frequency up to 100 Hz. The dominant frequency by the results of the electroencephalography is assigned as operating frequency, and the time of action is set to be equal to 35+-5 min. The device has an electrostimulator unit, whose output is made for connection to the electrodes in the patient's circuit, and a magnetic field forming unit with a solenoid, with a magnetic field forming unit with a solenoid, with power units each. The electrostimulator unit has a transducer of a series-connected master oscillator, transformer-coupled amplifier and a rectifier. The rectifier output is connected to the input of the first gate and made as the output of the electrostimulator unit. The device has a pulse shaper, whose output is connected to the input of the first gate, an output current level controller made for starting from the master oscillator, and whose output via the second gate and a ripple filter is connected to the transformer-coupled amplifier and the adder. The adder output is connected to the output of the first gate and the current meter. The magnetic field forming unit has a capacitor connected to the solenoid winding and via the switching unit - to the power unit. The switching unit is connected to the output of the control unit. The input of the pulse shaper of the electrostimulator unit and the input of the control unit of the magnetic field forming unit are made for connection to a personal computer via galvanic isolators.

EFFECT: reduced degree of disintegration in the structures of the limbic-reticular complex producing an optimizing action on the neurodynamics.

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Description

The present invention relates to medicine, namely to neurology and physiotherapy, and can be used in the complex treatment of patients with a neurological profile.

The relevance of the development and implementation of new methods of physiotherapy of neurological disorders is associated with the insufficient effectiveness of existing therapeutic approaches, due to the complexity of the structural and functional organization of the nervous system, objective difficulties of targeted influence on both the etiological factor and the determinant focus, the rapid launch of secondary endogenous pathogenetic mechanisms, and pronounced polymorphism emerging multilevel pathological functional systems.

The current theory of the 3rd regulatory system, where the transfer of information and energy is carried out through various ranges of the electromagnetic field, corresponds to the principles of functioning of the central and peripheral nervous system [Troshin O.V. Electroauriculodiagnosis in the treatment of cochleo-vestibular dysfunctions. Gorky, 1990.]. This theory explains the mechanisms of electro-puncture diagnostics (a change in electrodermal resistance in response to an exogenous effect) from the position of central-peripheral relations of neurodynamics. Based on this, the principles of the functional relationship of the central and peripheral nervous system are in many respects similar to the functioning of the 3rd regulatory system, based on the principles of Chinese traditional medicine, where "Yin" and "Yang" are the main energy substrates.

Over the past two centuries, there have been periods of both increasing and decreasing interest in the problem of the influence of electromagnetic fields on biological objects and the nervous system, in particular, in 1927 a message appeared in the American press about the "magic clamp" invented by G. Wilshire and intended to magnetic field treatment at home. During the procedure, the inductor was worn on the neck, lower back or legs. The magic "clamp" was an inductor-solenoid with a diameter of about 45 cm with a plug for inclusion in the network. He weighed about 3 kg. In the literature there is no data on the results of treatment with this device. Currently, the electromagnetic field is widely used in neurology for the diagnosis and treatment of various diseases.

Among the methods of physiotherapy, the method of transcranial electrical stimulation deserves attention. In the treatment of diseases of the nervous system, an energy-information approach is increasingly used. The method is based on the effect of a low-intensity electromagnetic physical factor with an information component, the effect of "bioresonance" of endogenous physiological rhythms of the neurofunctional systems of the body. At the same time, significant changes in neuro- and hemodynamics, brain metabolism are observed [RF Patent 2159639 “Method for transcranial electrical stimulation of the endorphin mechanisms of the brain and a device for its implementation”, IPC A 61 N 1/36, stated. 01/05/2000., Publ. 11/27/2000].

Currently, certain successes have been achieved in the treatment of diseases of the central nervous system, accompanied by a decrease in the functional indicators of brain activity, by electromagnetic factors of low intensity. However, the available works contain ambiguous, often contradictory data on the use of various parameters of electromagnetic physical factors. In addition, there are no clear indications of a differentiated approach to electromagnetic physical treatment methods depending on the individual characteristics of brain activity. Of particular interest in this area are the combined methods of physical therapy, which have several advantages over the separate use of physical factors. Their selection for combined exposure is carried out taking into account the principle of synergism and strengthening the response, and exposure parameters taking into account the individual sensitivity and validity of the proposed impact.

The known "method of treating vascular headaches, including transcranial electrical stimulation by exposure to the forehead and mastoid processes with a constant electric current of 1-7 mA, modulated by rectangular pulses with a ratio of constant and variable component 1: 3. Exposure to each session is carried out with successive use of an electric current of three different frequencies: the first 10 ± 2 min of the session is exposed by a current of 10 Hz, then for 15 ± 2 min of a session by a current of 77 Hz and the next 20 ± 2 min of a session with a frequency of 500 Hz , a course of 5-8 daily sessions. At the same time, the current strength is selected individually by gradually increasing within 1-7 mA until the patient feels a slight tingling, burning and compression sensation ”[Decision on the grant of a patent for the invention of 09/26/03, application No. 20022110333/14 of 04/18/2002].

This treatment method allows you to increase the effectiveness of the treatment of vascular headaches, at the same time to act on different links in the pathogenesis of vascular headaches: a system of regulation of cerebral blood flow (500 Hz), an antinocioceptive (analgesic) system (77 Hz) and an antineurotic system of the brain (stimulation of the "normal" brain rhythm - 10 Hz).

For the prototype of this invention, the selected "Device for low-frequency therapy" [RF Patent No.20020979, IPC A 61 N 1/00, the application. 01/22/92, publ. 15.10.94], in particular, the method implemented by this device, and accordingly the circuit diagram of the device. The inventive device comprises a carrier frequency generator, a modulator, a sine wave shaper, a switch, a power amplifier, a switch, electrodes, a constant voltage power source (block), a signal / pause generator. The proposed device allows to increase the penetration depth into the tissue of sinusoidally modulated currents (SMT) due to the combination of the effects of an electromagnetic field and an electric current, for this a ripple voltage shaper, an electromagnetic electrode and a switch are introduced into it. With a combined effect on the patient, the frequency of the modulating voltage of the SMT is set to 30, 50 or 100 Hz. The amplitude of magnetic induction on the surface of the core of the electromagnetic suction electrode is 15 plus or minus 3 mT.

The objective of the invention includes: the individualization of the parameters of physical effects in accordance with the endogenous rhythms of neurofunctional systems. Stimulation of sanogenetic mechanisms of the brain (cerebral antisystems), their modulation (normalization of hemodynamic disturbances, namely, the degree of compensatory reaction of cerebral vessels, asymmetry of blood flow in the main pools, venous outflow velocity, etc.), increased regression of pain, reduced degree of disintegration in limbico structures -reticular complex (normalization of neurodynamics).

This problem is solved by the method of craniospinal electromagnetotherapy, which consists in simultaneously contacting the forehead and the mastoid processes of the patient with electric current and contacting the magnetic field along the spine, in which the forehead and mastoid are exposed to direct current of 1-7 mA modulated by rectangular pulses of low frequency, while the frequency within the range of 0.5-550 Hz is assigned as the operating frequency, causing a change of electric skin resistance at biologically active points, exposure along the spine is carried out by a pulsed field with an magnetic induction amplitude of up to 1 T and pulse frequency of up to 100 Hz, while the dominant frequency is assigned as the operating frequency of the action according to the results of electroencepholography, and the exposure time is set to 35 ± 5 minutes .

The method is implemented as follows.

Electro-puncture diagnostics are preliminarily carried out according to the method of R. Voll (it is possible to use the Mini-Expert-PC apparatus), measuring 20 control measuring points that carry summarized information about the functional state of the main organs and systems and an additional 8 points on the meridian of nervous degeneration on the right and left hand. A reproducible point is chosen for diagnostics by the method of an autonomic resonance test (VRT), based on the effect of changing the electric skin resistance of a biologically active point in response to the influence of certain (resonant) frequencies, the diagnostic scale is expanded and the required number of Epiphysis D26 ampoules are connected to the circuit. Testing for ART is carried out through the Imedis-test frequency-resonance preparations: indications of the effectiveness of the drug in low dilutions and the filter drug for the use of brain frequencies. When the instruction is triggered, a drop in the arrow is noted during the "pumping" of the point: 80-60-40. After that, electrodes are applied to the patient on the forehead and mastoid processes through flannel pads moistened with water or saline. The impact is carried out by direct electric current modulated by monopolar rectangular pulses at a current strength of 1-7 mA with a ratio of constant and variable component 1: 3. The electrodes located in the forehead are connected to the negative, the electrodes on the mastoid processes with positive outputs of the current source. The doctor gradually increases the voltage of the pulsed electric current until the sensation of slight tingling, burning or squeezing appears, and at the same time controls the strength of the alternating current according to the indicator of the device. As they adapt, they increase the current strength, bringing it to a portable limit of not more than 7 mA. A current of greater strength causes sharply painful sensations. In most patients, complete adaptation, allowing you to set the necessary current strength values, is achieved within 2-3 sessions conducted daily. Impact parameters, frequency, are selected individually in the range from 0.5 to 550.0 Hz in the process of electro-puncture diagnostics by the autonomic resonance test. To do this, turn on the craniospinal electromagnetotherapy device for 10-15 seconds with a given frequency and connect the above filter preparations. The criterion for the adequacy of the selected frequency is the return of the arrow to the upper level of the standardized scale for diagnostics using the autonomic resonance test: from a drop of 80-60-40 to a rise of 40-60-80.

At the same time, an electromagnetic inductor-solenoid is superimposed on the patient along the line of the spinous processes of the spine. The impact is carried out by a pulsed magnetic field with an magnetic induction amplitude of up to 1 T and a frequency that is resonant to the structural formations of the spinal cord. For this, using the existing concept of “central-peripheral relations of neurodynamics”, a study of cerebral neurodynamics was carried out, which was assessed by conducting electroencephalography (EEG) on a computer prefix “Encephalon-131-01” with a computer neurotopographic mapping system, version 4.1 (Taganrog, “Medicom Ltd.”). The dominant frequency (Hz) was determined on the background EEG, the digital value of which was supplied to the control unit of the craniospinal electromagnetotherapy device through a PC, then the above frequency was applied to the solenoid inductor.

Sessions are held daily, the duration of the entire session is 35-40 minutes, in total up to 12 sessions conducted daily using the TKES device, an apparatus for craniospinal electromagnetotherapy. The experience of using the described method of treatment shows that in order to achieve a favorable effect and eliminate negative effects on the patient, the optimal number of procedures (sessions) of exposure from 7 to 12 is carried out daily with a maximum exposure period of 40 minutes. The preliminary clinical trials showed that fewer procedures are accompanied by less clinical effect, and more procedures are not practical, because the effect of "addiction" occurs.

The proposed method of treatment through the combined effects of transcranial electrical stimulation and segmental (spinal) magnetotherapy with individual selection of frequencies affects the underlying mechanisms of cerebral dysfunctions, namely, dysfunction of the mid-stem structures (limbic-reticular complex). The integration of transcranial electrical stimulation and segmental (spinal) magnetotherapy is a highly effective and safe way to treat brain dysfunctions. The patterns of sanogenesis of neurological disorders during craniospinal electromagnetotherapy are determined by the combination of the effects of transcranial electrostimulation and segmental magnetotherapy and are manifested by central, peripheral and combined effects. At exposure frequencies from 0 to 50 Hz, a psycho-vegetative and anti-neurotic effect is manifested; at exposure frequencies from 50 to 100 Hz - the effectiveness in the treatment of pain syndromes of various origins; at exposure frequencies from 100 to 550 Hz, vascular pathology is effective. The effectiveness of craniospinal electromagnetotherapy depends on the individual characteristics of the response of brain systems and antisystems, and therefore the modulating effect of craniospinal electromagnetotherapy manifests itself under strictly defined exposure parameters (frequency, pulse duration, pulse shape) at frequencies less than 600 Hz, is non-thermal, low-intensity, i.e. energy information. Thus, the present invention fully fits into the framework of the currently existing theory of central peripheral neurodynamic relations.

The proposed method was treated 52 patients with a neurological profile. Vascular pathology of the brain against the background of hypertension: a diagnosis of initial manifestations of cerebrovascular insufficiency (NPNMK) - 13 people, average age - 43 years. Stage I and II dyscirculatory encephalopathy (DE) with cochleovestibular and intellectual-mnestic disorders - 10 and 11 people, respectively, the average age is 62 years. With the consequences of acute cerebrovascular accident (stroke) with sensory, motor and speech disorders - 6 people, the average age of patients was 62 years. The consequences of closed craniocerebral trauma (CCT - brain contusion of varying severity) with asthenoneurotic syndrome, auditory, visual, sensory and motor disorders - 6 people, average age - 46 years. Myelo- and radiculopathy against the background of lumbar spinal osteochondrosis (OP) with sensorimotor disorders and pain syndromes - 6 patients, average age - 58 years. In all cases, there was a selective violation of the higher cortical functions of the brain (perception, memory, attention, imagination, speech, thinking), as well as hearing, smell, vision, coordination, sensory and motor functions. The control group consisted of 20 patients who underwent craniospinal electromagnetotherapy using the Amplipuls-4 apparatus as a control procedure (using the prototype method).

A comprehensive clinical, neurological and neurophysiological examination of all patients was carried out. The selection of the working (resonant) frequency was carried out by the above method. The intensity of the pain was assessed using a visual analogue scale (VAS) and the McGilov pain questionnaire. Reactive and personal anxiety was assessed using an adapted Spielberger-Hanin questionnaire. Emotional state was evaluated using YOUR emotional state. The state of cerebral and spinal blood flow was studied using transcranial ultrasound dopplerography (TKUZDG). The “Premier” and “Angiodin” devices of the BIOSS company, Russia, and 2 and 4 MHz sensors were used. The state of cerebral neurodynamics was assessed by conducting electroencephalography (EEG) on a computer prefix Encephalon-131-01 with a system of computer neurotopographic mapping, version 4.1 (Taganrog, Medicom Ltd.). The functions of the brain and spinal cord were evaluated using the Strannik multifunctional computer diagnostic system, version 4,6.3D-SD (MIMEX company, Nizhny Novgorod).

In patients with vascular pathology of the brain, headaches were more often observed (56%), which were dull, crushing, accompanied by a feeling of lightheadedness, unsystematic dizziness, the appearance of "flies" in front of the eyes at the height of the headache. The pulsating nature of the pain, indicating a decrease in the tone of the cerebral arteries and excessive stretching of their pulse volume of blood, was observed in 28% of cases. A bursting, dull headache localized in the occipital region, or diffuse in combination with hyperhidrosis, drowsiness, more pronounced in the morning and in the supine position, characteristic of the venous type of headache, was observed in 17% of cases. In patients with the consequences of CCI, the headache was of a mixed nature, such as tension headache and cerebrospinal fluid pain; its intensity increased with increasing organic symptoms and fatigue of the patient. In patients with spinal osteochondrosis, the pain syndrome was radicular and muscular-tonic in nature and was very intense.

The results of a quantitative assessment of the regression of pain after a course of craniospinal electromagnetotherapy (CSEMT) according to the McGilovsky pain questionnaire showed that the coefficient of analgesic effect (COD) was close to the maximum (0.7-0.9) in 84% of patients with NPNMK and 59% patients with DE1, in other cases, the COD values corresponded to the analgesic effect of moderate severity (0.5-0.6). In the control group, the COD values corresponded to the moderate analgesic effect (0.4-0.5). The impact was carried out at the segmental and suprasegmental levels of the nociotive system of the brain in the frequency range 77 ± 7.0 Hz.

The dynamics of reactive and personal anxiety, as well as the emotional state when applying the proposed method in comparison with known methods in patients with various brain pathologies: the application of the proposed method was accompanied by a more significant decrease in both reactive and personal anxiety compared to both the prototype and other known ways. Also, the emotional state in patients increased more pronouncedly. The impact occurred in the frequency range 10 ± 1.5 Hz and was aimed at stimulating the so-called anti-neurotic system of the brain.

According to TKUZDG in the group of patients with vascular pathology of the brain, functional changes in the tone of the main and cerebral arteries, redistribution of blood flow in the superficial venous system were revealed, and interest in the vessels of the vertebrobasillary basin was noted to a greater extent. In 29% of cases, stenosis of the arteries of the carotid and vertebrobasillar basins was observed, mainly hemodynamically insignificant. When DE I-II, there were multiple hemodynamically significant stenoses of the vertebral and main arteries of the carotid basin, a decrease in the frequency of functioning of the Wilizian circle anastomoses, a decrease in the average blood flow velocity throughout the vascular pools, an increase in interhemispheric asymmetry of the blood flow velocity, redistribution of the venous outflow with depletion of the superficial venous system, deep venous collectors, decreased autoregulatory capabilities of cerebral circulation. In the course of the study, the hemisphere asymmetry of the average linear blood flow velocity (LFV) was calculated in% by dividing the LFV difference module by a large LFB, the Gosling pulsation index (PI) was also calculated by dividing the difference in the maximum systolic and diastolic blood flow velocities to the average blood flow velocity per cardiac cycle, reflecting the elastic properties of arteries, and the Pursello index (IR), equal to the ratio of the maximum systolic and diastolic blood flow velocities to the maximum systolic velocity ty reflecting circulatory resistance. Cerebrovascular reactivity was determined by conducting thirty-second samples with breath-holding and hyperventilation, and was calculated as the ratio of the difference in BFK for breath-holding and BFV for hyperventilation to BFV alone. The cerebrovascular reactivity index (CVR) allows us to judge the severity of adaptive reactions and the degree of compensatory capabilities of the brain. The study of autoregulation of cerebral blood flow in patients with vascular pathology suggests an increase in peripheral vascular resistance at rest, a hyperconstrictor orientation of vascular reactions during functional stress tests, and instability of blood flow during orthostatic tests was also noted. As the disease progressed, there were persistent changes in the vascular wall, an increase in vascular stenosis, impaired autoregulation processes and the potential for collateral blood flow. After the course of CSEMT in patients with vascular pathology in the main group, according to TKUZDG, there was a significant decrease in the asymmetry of blood flow in the carotid basin, the asymmetry coefficient (CA) decreased by 5.8% in the group of patients with NPNMK and by 7.3 and 8.1% in the group patients with DE I-II, respectively (p <0.05). In the group of patients with the consequences of stroke, there was an increase in systolic blood flow by 10% in the vertebrobasillar basin. A significant decrease in the pulsation index PI was also found, which decreased by 8.2% in the group of patients with NPNMK and by 11.7 and 10.1% in the group of patients with DE I-II, respectively (p <0.05), and IR , which decreased from 0.66 to 0.78 in patients with NPNMK and from 0.68-0.70 to 0.52 in patients with DE I-II. The state of cerebral blood flow autoregulation after the course of CSEMT testified to the normalization of vascular reactivity, which was manifested in a decrease in the hyperconstrictor orientation of vascular reactions during test loads (test with spontaneous hyperventilation, arbitrary respiratory arrest), a decrease in the number of patients with an inadequate response to samples and orthostatic blood flow lability and antiorthostatic test. Thus, after the course of CSEMT, there was a tendency to restore the reactivity of cerebral vessels, indicating an expansion of the response capabilities of the vascular system of the brain and spinal cord, an increase in the degree of compensatory reactions of cerebrospinal vessels, more pronounced after the course of CSEMT. The dynamics of the state of the venous system of the brain during CSEMT was characterized by a decrease in the phenomena of venous discirculation in the form of a significant decrease in the speed of venous outflow through the orbital, vertebral veins, and the system of deep veins of the brain, which is more pronounced in the main group compared to the control group. The exposure occurred in the frequency range 500 ± 50.5 Hz.

An analysis of the neurodynamic relationships in neurological patients showed that with a deepening of cerebrovascular insufficiency, the total spectrum power decreases with a simultaneous increase in the specific gravity of the slow-wave activity, the dominant frequency of the α rhythm decreases, and the neurodynamics are grossly disorganized. After the course of CSEMT in the main group, an increase in the total bioelectric activity power by an average of 2.3 times was noted. The average frequency of the α-rhythm increased from 10.45 to 10.9 Hz, and the ratio of slow (delta + theta) and fast (beta 1 and 2) increased 1.3 times in favor of fast waves. In the prototype method, the treatment effect was characterized by the absence of stable and significant changes in the parameters of the electroencephalogram, with the exception of an unreliable increase in the spectral power of the EEG by 0.15-0.22 times. In general, the nature of the changes in bioelectric activity in the main group during CSEMT reflects a decrease in the degree of disintegration in the structures of the limbic-reticular complex and confirms the optimizing effect of the proposed method on neurodynamics in comparison with known methods and confirms the presence of a correlating relationship between the main brain rhythms and most resonant frequencies. The exposure was carried out in the frequency range 0.5-550.5 Hz. The number of patients in the main group discharged from the hospital with a good therapeutic effect significantly exceeded the value of the same indicator in the control group.

The study proves that the modulating effect of craniospinal electrotherapy manifests itself in the individual selection of exposure parameters (frequency, pulse duration) and the optimal combination of physical factor (transcranial electrotherapy and segmental (spinal) magnetotherapy

Examples of specific performance of the craniospinal electromagnetotherapy method (CSEMT) are given in the form of extracts from medical records

Example No. 1 Patient R., an employee, 45 years old, was admitted to the clinic of nervous diseases with a diagnosis of initial manifestations of a violation of cerebral blood supply with cephalgic, astheno-neurotic syndrome. He complained of headaches that bothered him 3-4 or sometimes more than once a week, having a dull and dull character, accompanied by heaviness in the head, dizziness, darkening in the eyes, "black flies" in front of the eyes. Headaches first occurred 1.5 years before admission to the clinic, their appearance occurred at different times of the day, more often after physical or emotional overstrain, as well as in connection with changes in atmospheric pressure. The neurological status was dominated by psychoemotional disturbances in the form of irritability, short temper, tearfulness, sleep disturbance, decreased appetite, vegetative-vascular disorders were present: acrohyperhidrosis, red diffuse persistent dermographism, lability of vasomotor reactions. Focal neurological symptoms were functional: weak convergence, installation nystagmus, revitalization of tendon reflexes, tremor of the eyelids and fingers of outstretched arms. According to YOUR data, the intensity of the pain syndrome was 5.78, reactive anxiety 39.1 points, personal anxiety 45.2 points. The working frequency was selected in the range 500 ± 5.0 Hz, for 2 minutes of exposure to each frequency, the course of KSEMT using a new device with the working frequency consisted of 15 daily procedures. As a result of treatment, the following dynamics were achieved: the intensity of the pain syndrome according to YOUR-1.98, reactive anxiety 30.2, personal anxiety 34.7. CODE according to the Mak-Gilovsky pain questionnaire was 0.85, which corresponds to the most pronounced analgesic effect. Normalized sleep, appetite. The state of hemodynamics during CSEMT was characterized by a decrease in the coefficient of asymmetry (CA) by 5.76%, a decrease in the pulsation index PI, which decreased by 8.23%, a decrease in the velocity of blood flow through the Rosenthal vein from 19.8 to 15.7 cm / s, and normalization vascular reactivity. Analysis of the electroencephalogram during the XEMM process showed that there was an increase in the total power of bioelectric activity by an average of 2.05 times, and the ratio of slow (delta + tetta) and fast (beta 1 and 2) increased 1.29 times in favor of fast waves. The average frequency of the alpha rhythm increased from 10.55 to 10.9 Hz. Brain functions (perception, memory, imagination), according to the Strannik MICS, improved by 15.8%. The patient was discharged to work, the duration of remission achieved during treatment was 4-5 months, during which no complaints were noted.

Example No. 2.

Patient A., 55 years old, was admitted to the clinic of nervous diseases with a diagnosis of stage I dyscirculatory encephalopathy with cephalgic syndrome, vestibulopathy, emotional-volitional disorders, left-sided pyramidal insufficiency. Complained of headaches constant, dull, diffuse, noise in the head, sometimes dizziness, nausea, memory loss for current events, difficulty concentrating on any subject, decreased performance, weakness in the left arm and leg. The duration of the disease is about 3 years. The emotional sphere is characterized by irritability, emotional instability, low mood, reduced criticism of one’s state and intellect. Sleep is disturbed. The appetite is lowered. In neurological status: miosis, lethargy of pupil reactions, asymmetry of facial muscles, reflexes of oral automatism, decrease in muscle strength to 4 points, increase in muscle tone by the pyramidal type and increase in tendon reflexes on the left, acrohyperhidrosis, staggering in the Romberg position without a clear side and three directions fingers of outstretched arms, soreness of the projections of vegetative formations in the neck. The pain intensity according to YOUR data was 4.15, reactive anxiety 49.3 points, personal anxiety 54.1 points. The course of CSEMT was conducted from 12 daily procedures of 40 minutes each with the selection of the operating frequency in the range of 500 ± 5.0 Hz, 2 minutes of exposure to each frequency using a new device. As a result of treatment, the following dynamics was achieved: the intensity of the pain syndrome according to YOUR 2.45, reactive anxiety 32.5, personal anxiety 42.7. CODE according to the Mak-Gilovsky pain questionnaire was 0.85, which corresponds to the most pronounced analgesic effect. Sleep, appetite improved, and manifestations of vegetative lability decreased. The state of hemodynamics during CSEMT was characterized by a decrease in the coefficient of asymmetry (CA) by 6.96%, a decrease in the pulsation index PI, which decreased by 10.8%, a decrease in the blood flow velocity through the Rosenthal vein from 27.2 to 15.6 cm / s, and normalization vascular reactivity. Analysis of electroencephalograms during the XEMT process showed that there was an increase in the total bioelectric activity power by an average of 2.03 times, and the ratio of slow (delta + tetta) and fast (beta 1 and 2) increased 1.19 times in favor of fast waves. The average frequency of the alpha rhythm increased from 10.31 to 10.62 Hz. Brain functions (perception, memory, imagination), according to the Strannik MICS, also improved significantly, by an average of 15%. The patient was discharged to work, the duration of remission achieved during treatment was 4-5 months, during which no complaints were noted.

Example No. 3. Patient A., 30 years old, invalid II gr., Was admitted to the clinic of nervous diseases with a diagnosis of the consequences of a closed head injury (moderate brain contusion), traumatic brain disease, cephalgic syndrome. Complaints of headache, general weakness, memory loss, inability to concentrate, viscosity of thinking, sleep disturbance. Neurological status showed asthenization of the patient, emotional instability, memory loss, speech impairment such as dysarthria, nystagmus, tremor of the hands and eyelids, revitalization of tendon reflexes, anisoreflexia, pathological signs on both sides, meningism. Instability in the Romberg position, staggering when walking, the duration of the disease is about 2 years.

The course of CSEMT of 12 daily procedures for 40 minutes with the selection of the operating frequency in the range of 10 ± 2.0 Hz, for 2 minutes of exposure to each frequency was carried out. The treatment revealed a response frequency of 9.2 Hz; the following dynamics was achieved: the intensity of the pain syndrome according to YOUR-1.1, reactive anxiety 30.4, personal anxiety 41.8. CODE according to the McGilovsky pain questionnaire was 0.83. Sleep, appetite improved, and manifestations of autonomic insufficiency decreased. The state of hemodynamics during CSEMT was characterized by a decrease in the coefficient of asymmetry (CA) by 6.92%, a decrease in the pulsation index PI, which decreased by 10.7%, and a decrease in the velocity of blood flow through the Rosenthal vein from 29.3 to 16.4 cm / s. Analysis of electroencephalograms during the XEMT process showed that there was an increase in the total bioelectric activity power by an average of 2.3 times, and the ratio of slow (delta + tetta) and fast (beta 1 and 2) increased 1.9 times in favor of fast waves. The average frequency of the alpha rhythm increased from 10.39 to 10.72 Hz. Brain functions improved by 18, 2%. The patient was discharged home, the duration of remission achieved during treatment was 3.5 months.

Example 4

Patient K., 49 years old, a private entrepreneur, was admitted to a neurological clinic with a diagnosis of vertebrogenic lumbar ischialgia on both sides, pronounced pain syndrome. In neurological status - a forced position, an analgesic posture, soreness of the paravertebral points and spinous vertebrae throughout the spine, restriction of movement in the lumbar, cervicothoracic spine, anisoreflexia of the lower extremities, lack of abdominal reflexes, weakness and decreased sensitivity to the segmental type of both lower limbs emotional instability. The course of CSEMT was conducted from 12 daily procedures of 40 minutes each with the selection of the operating frequency in the range of 77 ± 7.0 Hz, 2 minutes of exposure to each frequency with the application of a peripheral magneter to the lower back (nociogenic zone). The following dynamics was achieved as a result of treatment: the intensity of the pain syndrome according to YOUR 3.25, reactive anxiety - 22.5, personal anxiety - 32.6. CODE according to the McGilovsky pain questionnaire was 0.83. Assessment of cerebral hemodynamic and neurodynamics was not carried out. The functional state of the brain and spinal cord according to the Strannik MICS data has improved significantly, by an average of 18.5%. Muscle-tonic, neurodystrophic manifestations decreased, the volume of motor and sensory activity increased. The patient was consulted by a neurosurgeon refused the operation, was discharged with improvement. The duration of remission is 2.5 months.

Example 5. Patient D., 65 years old, invalid II gr., Was transferred to a neurological clinic from the therapeutic department with a diagnosis of hypertension II-III art., IHD. Diagnosed with dyscirculatory encephalopathy II tbsp. with emotional-volitional and intellectual-mnestic disorders, cephalgic syndrome. Complaints of headache, dizziness, general weakness, fatigue, high blood pressure, sleep disturbance, limb pain, memory loss. In neurological status - diffuse micro-focal symptoms, pathological reflexes on both sides, reflexes of oral automatism, emotional instability. The course of CSEMT was conducted from 12 daily procedures of 40 minutes each with the selection of the operating frequency in the range 500 ± 50.0 Hz, 2 minutes of exposure to each frequency. As a result of treatment, the following dynamics was achieved: blood pressure numbers decreased and stabilized, pain intensity according to YOUR data 0.55, reactive anxiety - 31.4, personal anxiety - 52.3. CODE according to the McGilovsky pain questionnaire was 0.81. Sleep, appetite improved, and manifestations of autonomic and emotional deficiency decreased. The state of hemodynamics during CSEMT was characterized by a decrease in the coefficient of asymmetry (CA) by 5.94%, a decrease in the pulsation index PI, which decreased by 9.8%, and a decrease in the velocity of blood flow through the Rosenthal vein to 16.5 cm / s. Analysis of electroencephalograms during the XEMT process showed that the total power of bioelectric activity increased by an average of 1.5 times, and the ratio of slow (delta + tetta) and fast (beta 1 and 2) increased 1.1 times in favor of fast waves. Brain functions improved by an average of 10.5%. The patient was discharged with improvement, the duration of remission achieved during treatment was 3.0 months, during which there were no rises in blood pressure to high numbers.

For the proposed craniospinal electromagnetotherapy method, a craniospinal electromagnetotherapy device has been developed, consisting of an electric stimulator unit, the output of which is configured to connect to the electrodes in the patient circuit, and a magnetic field generating unit with a solenoid, with power supplies each. In such a device, the electric stimulator block comprises a converter from a serially connected master oscillator of a transformer amplifier and a rectifier, the output of which is connected to the input of the first key and is configured as the output of the electric stimulator block, a pulse shaper whose output is connected to the input of the first key, an output current level regulator configured to start from the master oscillator and the output of which through the second key and a smoothing filter is connected to a transformer amplifier and an adder, output One of which is connected to the output of the first key and to the current meter, the magnetic field generating unit contains a capacitor connected to the solenoid winding and through the switching unit to the power supply, and the switching unit is connected to the output of the control unit, while the input of the pulse shaper of the electric stimulator unit and the input the control unit of the magnetic field generation unit is configured to be connected via galvanic isolation to a personal electronic computer.

The invention allows, in addition to transcranial electrotherapy, to conduct a simultaneous magnetotherapy session with a pulsed magnetic field of the same frequency. The frequency of the magnetic field from 0.5 to 100 Hz is set by software.

Figure 1 presents the electrical diagram of the device, figure 2 - control unit of the functional part of the pulsed magnetic field generator.

The electric stimulator block consists of the following blocks:

1 - a pulse shaper, 2 - a converter consisting of a master oscillator 10, a transformer amplifier 11 and a rectifier 12, 3 - an output current regulator, 4 - a voltage regulator, 5 - a second switch, 6 - a smoothing filter, 7 - a first switch, 8 - measuring output current, 9 - the first power supply, 31 - adder.

The pulsed magnetic field formation unit consists of:

13 - second power supply, 14 - protection unit, 15 - resistor, 16 - control unit, 17 - switching unit, 18, 19, 20, 21 - thyristors, 22 - capacitor, 23 - solenoid inductor.

Figure 2 presents the diagram of the control unit 16, consisting of 26 - driver and pulse distributor, 27 - power amplifier, 28 - transformer unit, 29 - frequency setter, 30 - comparator.

The essence of the device is as follows. The control program running on the PC using the standard PC interface - LPT port generates TTL level signals with a frequency in the range of 0.5-100 Hz, which then go through the optocoupler isolation (GR) (24) and (25), and further along the circuits of the electric stimulator block: pulse shaper (1), key 1 (7), adder (31), output. The output of the pulse shaper (1) is connected to the input of the key 1 (7), the switching signal with a maximum amplitude value of voltage of 20 V. The converter (2) consists of a master oscillator at 22 kHz - (10), assembled from logic elements, according to the standard circuit. The signal from the output of the transformer amplifier (11) is fed to a half-wave rectifier (12), the output of which is connected to the input of the key 1. The output current level is changed based on the output current level regulator (3), assembled on the basis of a pulse generator with a variable duty cycle, starting from master oscillator. Next, a pulse signal with a frequency of 22 kHz is converted into a constant signal using key 2 (5) and a smoothing filter (6). The output of the output current level controller is connected to the input of the key 2, amplifying the signal, the output of which is connected to the input of the smoothing filter. At the output of the smoothing filter (6), a constant component of the resulting output signal is formed. The signal from the output of the smoothing filter with a maximum amplitude value of 5 V feeds the transformer amplifier (11), which repeatedly (3-5 times) amplifies the original signal. Thus, a constant ratio between the constant and variable components of the output signal is ensured and a smooth adjustment of the output current level to a maximum value of ~ 20 mA (at a load of 1 kΩ) is ensured. The constant component of the signal is fed to the adder (31) based on the diode, where it is summed with the output signal of key 1 (7). The output of the adder is connected to a current meter (8), as well as stimulation electrodes.

The pulsed magnetic field generating unit operates from the same driving frequency as the electric stimulator unit, and is designed to generate bell-shaped magnetic field pulses with a maximum magnetic induction of up to 1 T (near the inductor surface) at a maximum current of 30 A. The duration of the bell-shaped pulse depends on parameters of the inductor L (23) and capacitance C (22). The principle of operation of the pulsed magnetic field generation unit is widely known and consists in the fact that the capacitor after recharging is discharged to an inductor-solenoid, thereby ensuring the formation of magnetic field pulses. First, thyristors (18), (19) open, and capacitor (22) is charged through a resistor (15). Upon reaching the required level of intensity of magnetic induction, which is determined by the master (29), voltage on the capacitance (22), the comparator (30) generates a signal for the switching unit (17), which in turn stops charging the capacitance, then thyristors (18), (19 ) are closing. By the next control signal, the thyristors (20), (21) open and the capacitance (22) is discharged to the inductor (11), and a bell-shaped magnetic field pulse appears. Then, by the control signal, the thyristors (20), (21) are closed and a new cycle begins: opening the thyristors (18), (19) recharging the capacitor, closing the thyristors (18), (19), opening the thyristors (20), (21) s the occurrence of the next magnetic field pulse. The control signals are generated in the control unit (16) (figure 2). The control information signals after galvanic isolation (25) are fed to the driver and pulse distributor (26), which generates control pulses of a given duration, the output of which is connected to the input of the power amplifier (27), the output of which is connected to the block of transformers (28), the output of which controls thyristors (18), (19), (20), (21). The power supply circuits of transcranial electric stimulator units and a pulsed magnetic field functional generator are not connected to each other to increase protection against electric shock.

The first power supply is made in the form of a battery with a voltage of 9V, which is then stabilized by a stabilizer (4) to the level necessary to power the microcircuits (4-5V).

The second power source is made in the form of a network unit, protected from electric shock according to class 2 of the normal OST 64-1-203-75 "Medical apparatus, instruments and equipment. Electrical safety. Technical requirements. Test Methods. " In addition, there is a protection unit 14, a shunt resistor 15, which disconnects the power circuit when the current is higher than the permissible value.

Claims (2)

1. The method of craniospinal electromagnetotherapy, which consists in simultaneously contacting the forehead and the mastoid processes of the patient with electric current and contacting the magnetic field along the spine, characterized in that the impact on the forehead and mastoid processes is carried out by a constant current of 1-7 mA modulated by rectangular pulses of low frequency, while the frequency within the range of 0.5-550 Hz is assigned as the operating frequency, causing a change in the electroderm with disobedience in biologically active points, impact spine performed pulsed field with an amplitude of the magnetic induction of 1 T and a pulse frequency up to 100 Hz, while in an operating frequency feedback designate the dominant frequency of the results elektroentsefolografii, and the exposure time is set to 35 ± 5 min. 2. A device for craniospinal electrotherapy, consisting of an electric stimulator unit, the output of which is configured to connect to the electrodes in the patient circuit, and a magnetic field generating unit with a solenoid, with power units each, characterized in that the electric stimulator unit contains a converter from a serially connected master oscillator a transformer amplifier and a rectifier, the output of which is connected to the input of the first key and is made as the output of an electric stimulator block, a pulse shaper s, the output of which is connected to the input of the first key, the output current level regulator, configured to start from the master oscillator and the output of which through the second key and the smoothing filter is connected to a transformer amplifier and adder, the output of which is connected to the output of the first key and to the current meter, the magnetic field generating unit contains a capacitor connected to the solenoid winding and through the switching unit to the power supply, and the switching unit is connected to the output of the control unit, while the input of the shaper and pulses pacemaker unit and the input unit of the control unit forming a magnetic field adapted to be connected via the galvanic isolation to personal computing machine.

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