RU2144787C1 - Method for treating cerebral blood circulation disturbances - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves applying helium-neon laser therapy, mechanical and electroacupuncture reflexogenic therapy, infrared photodiode thermopuncture and action of drug energy under test. EFFECT: enhanced effectiveness of treatment; accelerated treatment course. 4 cl, 5 dwg, 1 tbl

Description

 The invention relates to the field of clinical neurology and can be used in neurological centers, clinical hospitals, hospitals, clinics, sanatoriums, as well as in the educational process, in medical and scientific work at the departments of neurology of medical universities.

 It is known that the treatment of patients with cerebrovascular accidents (NMCs), especially in the acute period of the disease, is determined by the severity of the patient's condition as a result of cerebral lesions, as well as somatic disorders concomitant or developing as a result of NMCs. Under these conditions, when prescribing a number of drugs, evaluating the effect of any particular drug is extremely difficult, especially since the allocation of strictly comparable groups of patients is practically impossible due to the different age of patients, their cerebral lesions, including the size and location of the focus, systemic and regional hemodynamics at NMC. Moreover, to date, there are no vasoactive drugs (LPs) that could cause a lasting, statistically significant improvement in cerebral circulation. Most of these drugs are ineffective or even lower cerebral blood flow (Herrschaft H., 1976, 1979).

 To date, there is no unambiguous and complete description of vascular preparations. Therefore, it is no coincidence that ambiguous characteristics are used to determine the effect of neurovasoactive drugs on cerebral hemodynamics (vasodilation, increased cerebral blood flow, etc.), which do not give a complete picture of the effect of drugs on the state of cerebral blood flow. For example, an increase in cerebral blood flow, as well as vasodilation, does not yet indicate an improvement in cerebral blood flow, since cerebral perfusion may not increase or even decrease with a simultaneous decrease in cerebral blood flow velocity.

 Many methods used in neurological clinics for studying and evaluating the effects of vascular drugs have one more drawback - as a rule, they do not provide information on the effect of drugs on brain metabolism. A number of vascular LPs are potentially capable of improving brain metabolism, for example, reducing the need for brain tissue in oxygen, leading to more economical use of energy resources, and increasing the oxygen capacity of red blood cells. At the same time, cerebral blood flow may not change significantly, however, the clinical effect is often more pronounced than with agents that effectively improve cerebral blood flow, but do not directly affect brain metabolism (Shtok V.N., 1984). It is this mechanism of action that, apparently, is a very significant component of the clinical effect of trental (pentoxifylline), anaprilin (obzidan, inderal), guergin, etc. Such well-known vascular drugs as amufillin and ergot derivatives have the ability to improve metabolism in the ischemic lesion. (dihydroergotamine, etc.).

 It is known that when choosing vascular vasoactive drugs it is difficult to use the favorable effects of their action and to avoid undesirable effects, due to the multicomponentness of pathogenetic cerebral diseases and especially NMC. Many vasoactive drugs have a vasodilating effect not only on arteries, but also on veins. In this regard, one or another degree of intracranial hypertension develops, which significantly worsens cerebral hemodynamics. Therefore, the use of nicotinic acid, compliance and other vasodilator drugs in this situation is far from always favorable, since it can aggravate intracranial hypertension (ICH). In this regard, with ONMK, reserpine (serpazil, rusedil), eufellin, trental, vincapan and other drugs that normalize the tone of cerebral arteries and have a venopressor effect can be used.

 The question of the appropriateness of the use in the acute period of NMC LP with a stimulating effect on brain metabolism has not been resolved. This applies to nootropic drugs (aminalon, gammolone, piracetam, pyriditol), which stimulate the functional activity of the brain, increasing the consumption of oxygen and glucose. When ONMK plays an important role, reactions to the LP of cerebral vessels in the lesion region, neighboring areas and the unaffected hemisphere, which may be ambiguous, in some cases, antidirectional. For example, the syndrome of "intracerebral robbery" is known, in which it is possible to register vasodilatation for the introduction of the drug mainly in the unaffected hemisphere, which is unfavorable, since it contributes to the robbing of the ischemic zone, i.e. redistribution of blood to the detriment of the affected hemisphere (Karlov V.A., 1996).

There is a method of individual treatment of a patient with cerebrovascular accident, created more than 30 years ago by the German research doctor R. Voll, which is a synthesis of electro-puncture diagnostics and homeopathy / 1 /. This method provides access to sources of information about the structure and function of the substance, it answers the question of how this medicine will act on the patient by measuring the current flowing in the measuring circuit "electrodes - acupuncture point (TA)" at a constant electrode pressure on the skin (P ₀ ), using a device for measuring the electrical characteristics of TA for a period of not more than 10 minutes, and it is not necessary for the patient to take this medicine inside, it is enough for the patient to touch the medicine with his hand, as the indications change its electropunctural diagnostics.

 "There is nothing more effective in modern medicine now," writes Dr. N.L. Lupichev in his monograph "Electropuncture diagnostics, homeopathy and the phenomenon of long-range action" / 1 /.

 R. Voll’s method allows testing drugs within a few minutes, based on the body’s reaction, determining the effectiveness of their action on the patient, without administering drugs inside — based on the long-range phenomenon by the body’s reaction to material objects not only through molecular contact, but also on distance. You can measure the effect of the drug indirectly by the reaction of the body, while a person’s acupuncture system is a good indicator, which allows you to differentiate and evaluate the direction of the body’s reaction.

 So, the effect of drugs on humans and their energy radiation can be carried out using electro-puncture diagnostics / 1 /.

 To solve this problem, the use of low-energy lasers in clinical and experimental medicine is widely known. The quantum energy of a helium-neon laser has a beneficial effect on the enzyme elements of the blood during intravascular irradiation and, on the whole, has a pronounced positive therapeutic effect on the clinical course of recovery of cerebrovascular diseases / Illarionov VV, 1992; Dutkevich N.G., 1993, 1994; and etc./.

It is known that patients in a pre-stroke state with dizziness, headaches, general and cerebral hypertension are prescribed and performed 10-12 acupuncture acupuncture reflexology procedures for 2-3 min for each acupuncture point (TA), using the following symmetrical points:
JIAN-JUN-SHU (151G, 15Du, 15SI), located at the inner edge of the scapula (1.5 cun or proportional to the segment from the DA-JUI located between the 7th cervical and 1st chest vertebrae);
CHI-JI (5P, 5Lu, 5LU), located on the fold of the ulnar fold at the radial edge of the tendon of the biceps of the shoulder muscle (on the bend of the elbow);
Yu-ji (10P, 10Lu, 10LU), located at the radial edge of the base of the 1 metacarpal bone, at the site of attachment of the short abducent muscle of 1 finger (at its base).

In case of cerebral hemorrhage - hemorrhagic stroke and cerebral ischemic stroke, acupuncture reflexology is especially carried out in the form of acupressure by brake method of 12-15 procedures daily three times a day for the following TA (2-3 minutes per point):
LES-QUE (7P, 7Lu, 7LU) of the lung channel, located 1.5 cuns from the carpal fold, at the edge of the radial tendon;
ZU-SAN-LI (36E, 36M, 36St) of the stomach canal, located on the midline of the front surface of the leg, 3 cuns below the lower edge of the patella; in combination with the well-known point HE-GU, the point of TsZU-SAN-LI, prescribed for functional diseases of the central nervous system, allergies and hypertension, has a restorative effect;
YES-LIN (7MC, 7KS, 7HC) of the palmar median line of the arm of the pericardial canal;
LAO-VCO (8MC, 8KS, 8HC) of the pericardial canal ("ruler of the heart"), appointed for emergency care and in case of a hysterical attack;
WI-GUAN (5TR, 53E, 5TH) of the dorsal median line of the arm of the “three heaters” channel, usually prescribed for motor and sensory disorders of a central and peripheral nature, asthenia and insomnia;
XIN SHU (YU) (15V, 15B, 15BI) of the first lateral line of the back of the bladder canal, usually prescribed for heart disease;
FEN-CHI (20VB, 20G, 20GB) of the posterior cervical region of the gallbladder canal, prescribed for diseases of the brain, hemiplegia, diseases of the nose and ear.

 The closest in its medical parameters and technical solution, selected as a prototype, is a well-known method of treating cerebrovascular accidents / 3 /, which consists in conducting basic intensive care, including normalization of hemocirculation, respiration, cardiovascular system, water-electrolyte balance, acid -Main balance, hemorheological and hemostatic disorders, metabolic, membrane and somatic disorders, as well as the treatment of arterial hypertension, including hypertension th crisis, via antihypertensive and vasoactive drugs, the treatment of acute cerebral venous circulation is performed using conservative therapy, with thrombi cerebral veins used combinations of antiplatelet agents with anti-inflammatory agents, thrombosis sinuses used anticoagulants directly (heparin) and indirect action.

 The main disadvantages of the known method for the treatment of cerebrovascular accidents — the prototype — are not sufficiently high in the restoration of cerebral blood flow and the significant treatment time for acute cerebral arterial circulatory disorders, as well as the use of the same treatment principles as in other emergency conditions arising from a sudden lesion, exacerbation or complications of the nervous system.

 The prototype also does not provide due consideration for the individuality of each patient, determining the degree of illness of the patient, and the course of treatment of the patient takes a long period of time. The main disadvantage of this method is that it spends considerable time on the diagnosis of the disease, the choice of method and place of exposure to TA, because the processes of electropuncture diagnosis and reflexology are separated from each other, which reduces the effectiveness of an individual approach to treating patients. Moreover, the known method does not use the possibility of the simultaneous use of reflexology, laser therapy and drug treatment, in particular homeotherapy, which practically does not give side effects, and most importantly, it does not allow to determine and predict the effect of the drug chosen by the doctor on the patient before his administration organism of this drug, test the type and dose of the drug directly and (or) remotely (at a distance) for several minutes before taking it Nutri organism assess the condition of fundamental human bodies and their reaction to the use of the proposed drug is in direct contact and at a distance (remote) to several meters using radiotelemetry PL and infrared energy transmission channel.

 The objective of the invention is to increase the effectiveness of the treatment of cerebrovascular disorders by maximizing the restoration of impaired cerebral blood flow and reducing the treatment time for the patient due to the complex simultaneous intravascular low-power helium-neon laser therapy, mechanical and electro-puncture reflexotherapy, infrared LED thermopuncture and drug therapy after determining the types and single doses of selected physician medication individually for each patient.

 The problem is solved by the fact that they carry out complex simultaneous intravascular low-power helium-neon laser therapy, mechano- and electro-puncture reflexotherapy, infrared LED thermopuncture and drug therapy after determining the type and single dose of each drug individually for each patient, while having a simultaneous effect on selected points acupuncture with electric pulses of the required shape and duration of packs, thermal infrared radiation per one of the seven frequencies of modulation, by mechanical pressure and energy of the test drug, and the drug-test effect during the procedure is carried out in parallel along three lines - directly by wire, by radio telemetry channel and by infrared transmission channel, both without initial reception, and with ingestion of a drug with a selected dose, individually for each patient, depending on the intensity of his pathology, and the effect of the test drug This drug per patient before it is ingested is measured with an error of not more than 10% of the distance also directly by wire, and simultaneously by radio telemetry and infrared transmission channels.

 The inventive method for the treatment of cerebrovascular accidents is characterized in that the systemic synthesis of electropuncture and drug reflexology is carried out using the determination and analysis of blood viscosity and exercise tolerance of patients by searching and determining the group of acupuncture points (TA) with the maximum deviation from the norm, choosing the main acupuncture point diseases and checking the response of each TA from the selected group under the influence of electropuncture on the main point, normalization of TA with reduced values electrical conductivity by including in the circuit "active electrode-TA" of the test drug (PL) and exposing the main TA to only one of these PLs without introducing (receiving) it into the body directly through a direct electrical contact line, then the pathology intensity is calculated from the electrical conductivity and re-act on the main TA with the energy of the drug, determine the change in the intensity of the pathology in the direction of the norm or vice versa, conducting a quantitative assessment of the effect of long-range drugs on the disease patient, use the value of the intensity of the pathology to select the name of the drug and its dose, without taking it inside the body, individually for each patient, and after choosing the drug and its dose, treatment of the patient is started by simultaneous drug-tested effects on TA through direct molecular contact and electropuncture, while electro-puncture and drug reflexology is carried out no more than 3 times a day, after a day of rest and a total duration of no more than 12 procedures, with exposure time of one T A (1-2) min.

 The inventive method for the treatment of cerebrovascular accidents is characterized by the fact that intravascular non-power helium-neon laser therapy is carried out on a domestic installation of the type "Alok-1" with a wavelength of monochromatic radiation of 0.63 μm and a power at the end of the quartz fiber of the laser installation of not more than 2 mW, daily within 10 days with a duration of each procedure of not more than 30 minutes, while laser therapy is carried out in combination with an assessment of the rheological properties of the blood of patients, which consists in regular measurement erythrocyte aggregation and deformability, platelet aggregation and deaggregation, and platelet aggregation and diagnostics by using a photoelectrometer aggregograph; moreover, before each laser therapy procedure, a non-toxic fiberglass fiber is sterilized in an alcohol (70%) chlorhexidine solution for 60 minutes and then wiped with sterile, then wiped with a sterile cloth and then wiped with sterile, then The laser fiber is inserted through a puncture needle into the cubital vein at a distance of 3-5 cm, and the proximal fiber is fixed to the patient's skin with a band-aid.

 The inventive method for the treatment of cerebrovascular accidents is characterized in that thermopuncture is carried out using infrared radiation with a wavelength (0.9-1.2) microns, a power of not more than 10 mW, in one of seven frequency modes of operation (2.5; 5; 10; 20; 40; 80; 160) Hz, with an exposure time of one TA (1-2) min, no more than 2 times a day, after a day of rest and the total duration of exposure no more than 10 procedures / 2 /.

 The inventive method of treating cerebrovascular disorders is characterized in that acupuncture acupuncture is performed for dizziness, headaches, general and cerebral hypertension in patients with a pre-stroke state by performing 10-12 procedures for 2-3 minutes per acupuncture point (TA) every day 3 times a day to the symmetrical points JIAN-JUN-SHU, CHI-JI, Yu-JI.

 In case of cerebral hemorrhage and with CIC, acupuncture reflexology is especially carried out in the form of acupressure by brake method of 12-15 procedures every day 3 times a day for 2-3 minutes for each symmetrical acupuncture point - LE-QUE, TsZU-SAN-LI, YES -LIN, LAO-GUN, WAY-GU-AN, SIN-SHU (YU), FENG-CHI.

The task is achieved by taking into account the individuality of each patient, significantly reducing the gap between diagnosis and treatment itself due to a system-integrated approach to the simultaneous use of a combination of reflexology and long-range medication on the patient's body when they come in contact with him and at a distance using electropuncture diagnostics to select a name the necessary drug and its optimal dose. The solution to this important problem lies in the metrological determination of the effect of drugs, especially homeopathic medicines, on the patient prior to their administration (ingestion) inside, a visual reading of the magnitude of the reaction of the main organs of the person to the drugs used, remote (by wire and at a distance by radio telemetry) drug testing for several (not more than 4-6 minutes) by measuring the mechanical and electrical properties of the corresponding acupuncture points (TA) of the patient, in particular their conductivity, the choice of the type and quantity of the drug by assessing the state of the main organs (systems) of the person and their reaction to the drug used (drug) due to the long-range effects of the drugs on the patient's body, not only with molecular contact, but also at a distance at which without ionization of the molecules of the subcutaneous layers of the patient with a minimum-constant pressure on the skin by applying the active measuring electrode probe of the reflexology device to the required TA at a size the neutral electrode of this device in the hand of the patient being diagnosed and the active electrode included in the package of the drug is included in the electric circuit, with the current flowing in the active electrode - acupuncture point measuring circuit being almost constant dependent on the pressure of this measuring electrode on the patient’s skin surface (FIG. 1), while the measured value of the current strength indicator from its initial value (I ₀ ) at the initial moment of measurement changes in time from the moment T ₁ to the moment T ₂ in the direction of decrease to the value (T ₁ ) and characterizes the pathology of the organ (Fig. 3 ) or the patient subsystem associated with the measured TA, and the degree of the pathological process or its intensity is determined by the magnitude of the difference in current strength (I ₀ -I ₁ ) or the ratio (I ₀ -I ₁ ) / (T ₂ -T ₁ ), where T ₁ less than or equal to 3 s, T ₂ less than or equal to 30 s, and the value of I ₀ at the norm of the patient’s organ does not depend on time This is equal to 5.5–7.0 μA in the “TA-electrodes” circuit, which corresponds to 50–65 units of the scale of the reflexotherapy device in the electropuncture diagnostics mode.

 Moreover, each drug, for example, used in the known method, cytomedine (peptides bioregulator), is placed in an aluminum microcontainer that has electrical contact with the measuring circuit of the active electrode of the device or without contact, at a distance, and all the above criteria or indicators with direct or remote ( by radio telemetry) the patient’s contact with the drug changes its value (Fig. 4) and this change corresponds to the clinical effect of the drug (normal or vice versa), which is used to treat the patient m selecting each patient (wounded) first the name of the medicine, and then, also according to the reaction of the corresponding TA, and the optimal dose of the necessary later on patient LP individually, and the error in measuring the current strength does not exceed (9-11) percent, and the TA response to the test LP can be expressed in a change in the indicator itself in the resistance range from 0 to 900 kOhm, with a norm (50-100) kOhm not located in the middle of the range, but dividing its entire interval in the ratio of 1: 10.0, which requires a corresponding non-linearity of the device scale .

 Then, a complex simultaneous effect is applied to the correspondingly selected TAs, depending on the degree of the patient’s disease, namely, electric pulses of the required shape and duration of their packs, thermal infrared radiation with different modulation frequencies, mechanical pressure on the patient’s TA and the drug-tested effect as in contact medicines with TA, and at a distance due to radio telemetry and the infrared channel of energy transfer of drugs, - simultaneously (or alternately), increasing the efficiency l reflexology due to the exact search for TA using the special operating mode of the device "Search for TA" by light indication of the location of the TA.

 Thus, the processes of electro-puncture diagnosis of the degree of the disease and dosed reflex-drug treatment merge into a single whole.

 In order to expand the functionality of the method for reflexology, an aluminum microcontainer made in the form of a stacking cup with an opening and closing lid is used, and the test drug is placed in the microcontainer itself, which is thus included in the electrical circuit between the common active electrode probe and the control unit the device, while the microcontainer has direct (direct) electrical contact with the measuring circuit of the electrodes of the device on the one hand, and the drug in the microcon Oner, on the other hand, further comprises an inductive coupler connected to a radio transmitter connected to a battery pack, the output of the coupler being connected to the input of the radio transmitter modulator with wires exiting through one of the walls of the microcontainer, and the high-frequency output of the radio transmitter connected to the pin transmit antenna . At the same time, the RF under test conducts simultaneous (with electrical conductivity) radio frequency communication with the test TA, the receiving antenna of which is the common active electrode probe of the device inserted into this TA, and the inductive coupling element is connected by wires to the input of the modulator of the heat exposure unit. Therefore, in parallel, the energy of the drug is simultaneously transmitted via the infrared communication channel.

 This technique of reflexology improves the well-being of patients with impaired cerebral circulation by at least 1-2% compared with the control group that did not take acupuncture reflexology.

 The inventive method of treating cerebrovascular accident is as follows.

 Systemic synthesis of electropuncture and drug reflexology is implemented by determining and analyzing blood viscosity and exercise tolerance in patients with impaired cerebral circulation. This synthesis consists in searching and determining a group of acupuncture points with a maximum deviation from the norm, choosing the main acupuncture point of the disease, and checking the response of each TA from the selected group when the electro-puncture affects the main point, normalizing the TA with reduced conductivity, for which there is an active electrode in the circuit -TA "include the test drug, act on the main TA with only one of these drugs without introducing (receiving) it into the body directly through a direct electric cable ntact, then the intensity of the pathology is calculated by the magnitude of the electrical conductivity and reapplied to the main TA with the energy of the drug, the change in the magnitude of the pathology intensity is normal, or vice versa, a quantitative assessment of the effect of long-range drugs on the patient’s disease is used, the pathology intensity value is used to select the name of the drug and its dose , without its ingestion, individually for each patient, and after choosing a drug and its dose, treatment of the patient is started by a simultaneous drug test exposure to TA through direct molecular contact and electro-puncture, while electro-puncture and drug reflexology is carried out no more than 2-3 times a day, after a day of rest and a total duration of no more than 12 procedures, with exposure time per TA (1- 2 minutes.

The inventive method for the treatment of cerebrovascular diseases differs from the prototype in that they carry out complex simultaneous low-power helium-neon laser therapy, mechano- and electro-puncture reflexotherapy, infrared LED thermopuncture and drug therapy, while they simultaneously affect TA with electric pulses of the required shape and duration of the packs, thermal infrared radiation at one of seven modulation frequencies, mechanical pressure, the energy of the drug being tested drug, and the drug-test exposure during the procedure carried out in parallel on three lines,
- directly through the wires, through the radio telemetry channel and through the infrared transmission channel, both without initial intake and with the intake of the drug in the body with the dose chosen by the doctor, individually for each patient, depending on the intensity of his pathology, and the effect of the test drug on the patient is up to its intake into the body is measured with an error of not more than 10 percent remotely directly via wires, radio telemetry and infrared transmission channels, while determining the type and single dose of drug in ividualno for each patient.

 The problem is solved in that they improve the state of lipid metabolism and rheological properties of blood in patients with cerebrovascular accident by the simultaneous use of low-power helium-neon laser therapy in combination with the simultaneous use of thermopuncture, electro-puncture, mechanical pressure and drug therapy according to the method of R. Voll.

 The inventive method differs from the prototype in that it additionally carries out intravascular low-power helium-neon laser therapy, which is carried out on a domestic installation of the type "Alok-1" with a wavelength of monochromatic radiation of 0.63 μm and a power at the end of the quartz fiber of the laser installation of not more than 2 mW daily for 10 days with a duration of each procedure for more than 30 minutes. In addition, before each procedure of intravascular low-power helium-neon laser therapy, the fiber of non-toxic glass fiber is sterilized in an alcohol (70%) chlorhexidine solution for 60 minutes, and then wiped with a sterile cloth. After that, the fiber of the laser unit is inserted through a puncture needle into the cubital vein at a distance of 3-5 cm, and the proximal end of the fiber is fixed to the patient's skin with a band-aid. In this case, laser therapy is carried out in combination with the assessment of the rheological properties of the blood of patients, which consists in regular measurement and diagnosis of the state of aggregation and deformability of red blood cells, platelet aggregation and deaggregation by using a photoelectrometer aggregograph / 4 /.

 Thermopuncture is carried out using infrared radiation with a wavelength (0.9-1.2) microns, with a capacity of not more than 10 mW, at one of seven frequency operating modes (2.5; 5; 10; 20; 40; 80; 160) Hz, at an exposure time of one TA (1-2) min, no more than 2 times a day, after a day of rest and the total duration of exposure no more than 10 procedures.

 A comparative analysis of the proposed medical-technical solution with the prototype shows that the proposed method for the treatment of cerebrovascular diseases differs from the known new elements and relationships. Therefore, the claimed method meets the criteria of the invention of "novelty" and "significant differences".

 The effect of helium-neon laser therapy on the clinical course of cerebrovascular accidents and some indicators of the rheological properties of whole blood were studied at the GVGG im. Acad. N.N. Burdenko. Helium-neon laser therapy was carried out on a domestic apparatus "Alok-1" with a wavelength of monochromatic radiation of 0.63 microns and a power of 2 mW at the end of the quartz fiber. The laser fiber was introduced through a puncture needle into the cubital vein to a depth of 3-5 cm. The exposure time was 30 minutes, the course of treatment was 5 daily procedures. In the course of studies, it was found that patients with NMC had a statistically significant increase in the viscosity indices of whole blood compared with the norm against the background of an increase in the aggregation properties of red blood cells. After the course of laser therapy, favorable shifts were noted: blood viscosity decreased, the degree of aggregation of red blood cells decreased, the number of the latter in one aggregate decreased, and the content of non-aggregated red blood cells increased.

 An improvement in the current properties of whole blood was observed mainly at low shear rates, which reflect the state of blood circulation at the level of microcirculation, which is largely due to a decrease in the activity of the aggregation properties of red blood cells. It has been established that the effect of laser quantum energy on blood changes the electric potential of erythrocyte cell membranes, which is accompanied by an increase in their deformation and a decrease in the viscosity of whole blood. And this, in turn, helps to improve capillary blood flow.

Reflexotherapy is carried out using a device that works as follows. The first modulating pulse generator generates rectangular pulses with a duration of 0.5 • 10 ^-3 s, the repetition rate of which (F ₁ ) can be adjusted within (2.5-200) Hz. A second pulse-filling pulse generator of a fixed frequency produces rectangular pulses with a duration of 0.5 • 10 ^-3 s and a repetition rate (F ₂ ) of 80 Hz. The third modulating pulse generator produces a meander-shaped voltage with a repetition rate (F ₃ ) of (0.2-0.5) Hz. Of the three types of pulse sequences generated by three generators, the synthesizer forms a single working (medical) sequence (Fig. 2), which, depending on the operating mode of the synthesizer, set manually by a doctor (nurse) or automatically using a programmable timer, can have several different types . The working pulse sequence is supplied through the AND, OR circuits to the output power amplifier and then through the first switch, the control and regulation unit to the common active electrode, mounted and pressed on the patient's TA. The master unit of the heat exposure unit controls a modulator having seven frequency modulation modes. One of the assigned values of the modulator frequency is set manually by the doctor (nurse), in particular, with cerebral anesthesia depending on the age of the patient - the younger the patient, the lower the frequency of modulation, and the degree of allergic disease, - the lower the degree of allergy, the lower the frequency of modulation . The voltage of the modulating signal after amplification in the first power amplifier launches a heat emitter that heats the common active electrode associated with the TA. In this case, the programmable timer controls the operation of the control unit according to the previously entered program / 2 /.

 The inventive method of treating cerebrovascular accident is carried out in the following sequence. First, electro-puncture diagnostics of the patient’s disease is carried out. At the same time, significant lability of the acupuncture system, the state of which is always ahead of the state of internal organs, is taken into account, and TA reactions to various drugs (and doses) are examined to make an accurate diagnosis, while taking into account the fact that if TA can be brought back to normal only with the help of drugs and (or) the effects of laser therapy, then the violations in the acupuncture system associated with this TA were significant, and the deviation of this TA from the norm is not a criterion for assessing the severity of cerebral Iya patient.

In order to reduce the measurement time, electropuncture diagnostics is divided into several stages:
The first stage is the determination and selection of the limb that has the greatest deviation from the normal conductivity. At the first stage, the device for reflexology is first set up - the active and passive electrodes are short-circuited and the control knob is turned at the “100” mark by turning the “Adjustment” knob and the patient’s skin is prepared for measurements: when the skin is excessively dry, the skin is moistened with water and excess humidity - dried with a waffle towel. Then, the required TA is searched for according to the corresponding anatomical landmarks and its location is specified on the "Search TA" device mode by the light on when the active electrode accurately hits this point. After that, a change is made when the patient holds the passive electrode in his free hand, the active (positive) electrode is placed on the measured TA and within 1 s pressure is applied to the skin of the TA with the common active electrode, the so-called minimum-constant pressure, according to the density gradient of underlying tissues with strength not more than 5 H, i.e. sufficient to feel the hardness of the tissues. In the process of increasing the pressure of the electrode on the skin, the readings of the indicator of the device will initially increase, then the growth rate will decrease and at this moment it is necessary to stabilize the pressure force and fix the result after 1-2 seconds (Fig. 1).

If "fall of the arrow" according to R. Voll begins, then it is necessary to fix the lower value of the current strength indicator (I ₁ ). The lower value of the current strength, this is the most important indicator, is determined by the result of the third of three consecutive single measurements, with the active electrode being moistened with water before each measurement. The response of the TA to the measurement is shown in FIG. 3.

 The total electrical conductivity is measured as follows: a passive (or neutral) electrode is in the patient’s free hand, an active electrode is placed in the other hand (if measurements are made on this hand) and the measuring circuit closes. If measurements need to be carried out on the foot, the foot is mounted on a special passive electrode in the form of a plate. The total electrical conductivity can be measured differently: after the measurements, the obtained values for one limb are averaged, the values of 0.18 average values are postponed from the average value on both sides, resulting in a normal band / 1 /. However, this method is applicable only in cases where the total conductivity is not lower than 65 units of the scale. Otherwise, the differences between the values of all measured TA gradually disappear. You need to know that values above the norm (the norm is 50-65 units of the device scale) reflect the state of inflammation of the organ, values below the norm reflect the state of hypofunction, degeneration - from the initial stage (50-30 units) to complete atrophy or loss of function at values below 20 unit scale units. This is true if the total electrical conductivity to the limb on which measurements will be made is within the range of 80-90 units of the instrument scale. So, at the first stage, the overall electrical conductivity from limb to limb is determined (arm-arm, arm-leg on the left, arm-leg on the right, leg-leg), and the positive electrode is placed on the limb that needs to be examined.

 The second stage of the method: research and selection of channels of the selected limb according to previously selected control TA, which most reflect the state of each channel. Moreover, the selected limb is the limb that showed the greatest deviation from the norm at the first stage of the proposed method of treatment.

 The third stage of the proposed method is the study of individual TA of the selected limb channels, which showed the greatest deviation from the norm in the second stage; search and determination of the TA group with the maximum deviation from the norm, the choice of the main acupuncture point for a given disease — for cerebrovascular accident in 80-90% of cases, the main TA is the acupuncture point “TsZU-SAN-LI”, and the response of each TA from the selected TA groups under the influence of electropuncture on the Main TA.

 In the case when there is only one, clearly expressed main TA, the treatment of the patient’s NMC does not present great difficulties. If there is a group of TAs, it is necessary to choose among them the Main TA, which is the first link in the pathogenesis of the disease. If the choice is made correctly, then all other TAs normalize over time themselves. You can, of course, choose medicines for all these points, but then you will have to constantly monitor all subsequent one-time medications in order to exclude an overdose of each of them. It should be borne in mind that even homeopathic medicines, especially in high potencies, can harm the patient if they are prescribed incorrectly or in excessive doses. At the third stage, to select the Main (key) TA, they use, firstly, the laws of interaction of channels described in the Guides on classical acupuncture, secondly, using traditional clinical logic, thirdly, you can check the response of each of the selected TAs under the influence of to the main point of acupuncture.

 The fourth stage of the proposed method for the treatment of NMC is the normalization of TA with reduced values of electrical conductivity. At the fourth stage, in order to preserve the patient’s total energy, in the treatment of patients, indicators in various TAs that have deviations both in the direction of hyperfunction or inflammation (from partial to total at 90-100 scale units), and towards hypofunction, degeneration (from the initial stage at 50-30 units of the scale until complete atrophy or loss of function at values below 20 units), first of all, they normalize TA with low electrical conductivity.

 The fifth stage of the proposed method for the treatment of NMC is the inclusion of a drug in the active electrode-TA circuit and exposure to the main TA of only one of this medicine without introducing (taking) it into the body simultaneously in three, possibly two, lines: directly through direct electric contact remotely via the radio telemetry channel and the infrared, thermal channel.

The sixth stage of the proposed method for the treatment of NMCs is the measurement of electrical conductivity in the measuring circuit "Active electrode - Main TA", the calculation of the current strength at the initial moment (T ₁ ) and at the moment (T ₂ ), the calculation of the difference in current strength (I ₀ - I ₁ ) or relations (I ₀ -I ₁ ) / (T ₂ -T ₁ ), where T _{1 is} less than or equal to 3 s, T _{2 is} less than or equal to 30 s, is the intensity or degree of the pathological process (pathology of an organ or subsystem) of the patient.

The seventh stage of the proposed method for the treatment of NMC is the effect on the TA of the tested drug and the determination of the change in the intensity of the pathology (I _p ), equal to the difference (I ₀ -I ₁ ), towards the norm or vice versa, i.e. quantitative assessment of the effect of long-range drugs on the patient’s disease and the use of the intensity of pathology And _p to select the name of the drug and its dose, without introducing (taking) the drug into the body, individually for each patient (Fig. 4). At the seventh stage, the absolute value of the indicator in the selected TA is accurately measured, after which the medicine selected by the doctor in the dose that is supposed to be prescribed for treatment can be placed in an aluminum microcontainer in the package, even in an ampoule, then after 3-5 seconds the measurement is repeated again ( Fig. 5).

 If the indicator of the intensity of the pathology has changed and has become closer to normal, then the selected drug in this dose has a positive effect on the studied system. In order to avoid errors during drug testing and to exclude accidental erroneous results, the reaction of the TA to the measurement process is taken into account by performing one or two repeated measurements in order to verify the presence or absence of the TA reaction, getting into the same place with the active electrode. If repeated measurements show that the indicator has again returned to its original position, then there is no TA reaction to the medication. It is necessary to know that even with an insignificant displacement of the electrode away from the selected TA, sharp changes in the conductivity index can occur.

 A constant electric current flows in the measuring circuit, the value of which depends on the resistance of the skin when it is strongly deformed by the electrode during the measurement process, while the humidity of the skin has a significant effect on the measurement results, so the active electrode is constantly moistened with water - this way we reduce the effect of secretion of sweat glands to a large extent, we provide electrical contact with the skin, since the resistance of the stratum corneum is very high. In cases where sweating is increased (skin moist from sweat), measurements do not give reliable results. Therefore, the fastest, most convenient and reliable method is the method of successive threefold short measurements, which always allows to detect a decrease in current strength, i.e. organ depletion, and get a stable picture of the state of measuring TA.

 If the first series of measurements shows the complete absence of pathological changes in the body, then after 5 minutes the study is repeated and a completely different picture can be detected. If there are sufficient reserves in the body or in those cases when the body does not respond adequately to the development of the disease, the acupuncture system does not respond to the first measurements. Often there are cases when the values in the control measuring points do not go beyond the norm, and the rest of the TA of these channels show that there is still a pathological process.

 Therefore, it is best to measure additionally 3-4 TAs on each channel. This is not as much as it seems at the beginning, and takes no more than 10 minutes (all measurements). If the indicator exceeds 75 units of the scale of the device, then the organ or subsystem is in a state of inflammation or hyperfunction. This picture corresponds to the initial, acute stage of the process and, as a rule, is observed no more than a few days. Then the system, having exhausted the main resources, goes to the subacute and chronic stages, and the indicator begins to decline. At this seventh stage, it is difficult to determine precisely: hyper or hypo, since in one case and in another case, the stable state of the measuring TA (after several measurements) corresponds to a level below 50 units of the scale. And only then, when the first measurement reveals low values, we can firmly say that the degeneration process has begun.

The strength with which the active electrode should be pressed against the skin surface is a very important issue. If the skin is thick or normal, then the plateau AB on the dependence of the current strength I ₀ on the magnitude of the pressure (P) of the electrode on the skin (Fig. 1) is most pronounced and there is no need to carefully monitor the arrow of the device. If the patient's skin is thin and delicate (woman, children), then the plateau AB becomes short-lived and hardly noticeable. In such cases, the measurements must be carried out very carefully so as not to miss the necessary pressure level (in such cases, the value of the pressure of the active electrode on the skin should be 2 times less than for thick skin).

 Before the medication is included in the measuring circuit, it is necessary to remove the active electrode from the TA, and then return it to its original position. This must be done because, first of all, we are interested in the mechanical properties of the skin, which are manifested precisely in the process of pressing. Therefore, it is necessary that the fabric has time to straighten and change elasticity.

 The basic information is contained in the relative distribution of the measured value over the points. Therefore, the task of the operator should be reduced to identifying all TAs that have a maximum deviation from the norm or the average value, which is estimated from several measurements.

 If, on average, for example, half of TAs fall into a subrange of values with a width of 20 units of the scale, then the rest, outside it, should be the object of attention of the operator. If the measured values in all TAs do not exceed 30 units of the scale (in case of a serious condition of the patient), then the task in any case comes down to raising their level. This all indicates how important the absolute level of the measured values and the general conductivity of the limb-limb.

 In order to raise the level of TA, you can select drugs for all systems and organs at once, without going into the details of their connections at the beginning. Once the first successes in this direction have been achieved, we can begin to elucidate the leading link in the pathogenesis of the disease and carry out further selection of drugs or methods of exposure taking into account pathogenetic relationships. A diagnosis of the disease is made by the doctor based on his clinical experience.

 Next, they carry out complex simultaneous intravascular low-power helium-neon laser therapy, mechano- and electro-puncture reflexotherapy, infrared LED thermopuncture and drug therapy after determining the type and single dose of each drug individually for each patient, while simultaneously exerting simultaneous effects on the selected acupuncture points with electrical pulses of the required shape and duration of packs, thermal infrared radiation at one of seven modulation frequencies, fur pressure and energy of the test drug, and the drug-test effect during the procedure is carried out in parallel along three lines - directly by wire, by radio telemetry channel and by infrared transmission channel, both without initial administration and with the intake of the drug with the selected dose, individually for each patient, depending on the intensity of his pathology.

 In the table. 1 shows the results and outcomes of treatment of patients with cerebrovascular disorders in the MHC named after academician N.N. Burdenko from 1990 to 1995

 From the table. 1 it follows that the average duration of treatment of patients with transient disorders of cerebral circulation treated in the period from 1990 to 1994 according to the known method of the prototype, ranged from 14.8 to 17.1 days. In 1995, 65 patients with transient cerebrovascular accident were treated by the claimed method of treatment, while the average duration of treatment of these patients was 13.4 days.

 Thus, compared with 1990, which accounts for the longest average duration of treatment of patients with NMC, equal to 17.1 days, in 1995, thanks to the claimed method, the average duration of treatment of cerebrovascular diseases decreased by 3.7 days, i.e. . The objective of the invention is to increase the efficiency of treatment of patients by reducing the time achieved. In 1993, almost half the number of patients (37 patients) with cerebrovascular accidents was treated, but nevertheless, the average duration of treatment for patients with NMC decreased in 1995 by 1.4 days.

 Thus, the claimed method of treatment of cerebrovascular disorders allows you to maintain the required blood flow in the cerebral arteries and veins.

 The problem is achieved by the fact that using the proposed method for the treatment of cerebrovascular diseases increase the effectiveness of complex corrective hemotherapy of patients by improving lipid metabolism and rheological properties of blood due to simultaneous exposure and the effect of intravascular low-power endovasal helium-neon laser therapy, mechano- and electro-puncture reflexotherapy, infrared LED thermopuncture and drug-puncture therapy by transferring the required energy of the selected time chom drug and its dose at a time for three lines - direct molecular contact, on infrared transmission and radio telemetry channels (energotelemetrii). Moreover, the claimed method of treatment makes it possible to carry out simultaneous mechanical pressure on the patient's TA, increasing the effectiveness of reflexology due to the exact search for TA using a special mode of operation of the TA Search device by light indication of the location of the TA.

 Treatment of patients with the combined method of laser-, mechano-, thermo-, electro-puncture and the test use of medications makes it possible to significantly reduce the daily dose of drugs without reducing the effectiveness of its therapeutic effect, which is an important factor in reducing, and in most cases, completely eliminating the toxicity of drugs funds.

 In addition, the claimed method of treatment of cerebrovascular accidents will find application for the relief of pain and paresis. In this case, it is advisable to prescribe the minimum daily dose of each drug, which does not cause general intoxication of the body, and the choice of the moment of exposure to TA of the body, taking into account the biological daily rhythms of the work of its organs and systems.

Sources of information
1. Lupichev N. L. Electropuncture diagnostics, homeotherapy and the long-range phenomenon // NPK "Irius". - M., 1990.

 2. Litvinov A. M. Copyright certificate N 1588417/1988. - Device for reflexology. - MKI A 61 H 39/00, USSR.

 3. Karlov V. A. Therapy of nervous diseases. - M .: Shag, 1996 .-- 653 p.: With ill. (prototype).

 4. Krivozubov EF, Yakovlev VB, Sablin V.M. The effect of endovasal helium-neon laser therapy on the rheological properties of blood in a patient with coronary heart disease // Military. - honey. journal - 1994. - N 5. - S. 31-32.

Claims (4)

 1. A method for the treatment of cerebrovascular disorders by conducting basic intensive care, including normalization of hemocirculation, respiration, cardiovascular system, water-electrolyte balance, acid-base balance, hemorheological and hemostatic disorders, metabolic, membrane and somatic disorders, as well as treatment of arterial hypertension, including hypertensive crisis, with the help of antihypertensive and vasoactive drugs, while treating acute disorders of cerebral venous Inversions are carried out using conservative therapy, for combination with antiplatelet agents and anti-inflammatory drugs for cerebral vein thrombi, direct (heparin) and indirect anticoagulants are used for sinus thrombosis, characterized in that they perform complex simultaneous intravascular low-power helium-neon laser therapy and mechanical therapy reflexology, infrared LED thermopuncture and drug therapy after determining the type and single dose of each medicine This drug is individual for each patient, while they simultaneously affect selected acupuncture points with electric pulses of the desired shape and duration of packs, thermal infrared radiation at one of seven modulation frequencies, mechanical pressure and energy of the test drug, and the drug-tested effect during the procedure carried out in parallel along three lines, directly by wire, by radio telemetry channel and by infrared transmission channel, as from the initial intake, and with the ingestion of a drug with a selected dose, individually for each patient, depending on the intensity of his pathology, and the effect of the test drug on the patient before it is taken inside the body is measured with an error of no more than 10% remotely also by wire, and simultaneously by radio telemetry and infrared transmission channels.  2. A method for the treatment of cerebrovascular accidents according to claim 1, characterized in that the systemic synthesis of electropuncture and drug reflexology is carried out using the determination and analysis of blood viscosity and patient tolerance to physical activity by searching and determining the group of acupuncture points (TA) with a maximum deviation from norms, choosing the main point of acupuncture of the disease and checking the response of each TA from the selected group under the influence of electro-puncture on the main point, normalizing TA with reduced values conductivity by including in the circuit an active electrode - TA of the test drug (LP) and exposure to the main TA with only one of these drugs without introducing (receiving) it into the body, directly along the line of direct electrical contact, then the pathology intensity is calculated by the value of electrical conductivity and repeatedly affect the main TA with the energy of the drug, determine the change in the intensity of the pathology towards the norm or vice versa, conducting a quantitative assessment of the effect of long-range drugs on the disease e of the patient, the pathology intensity value is used to select the drug and its dose, without taking it inside the body, individually for each patient, and after choosing the drug and its dose, treatment of the patient is started by simultaneous drug-tested effects on the TA through direct molecular contact and electro-puncture at the same time, electro-puncture and drug reflexology is carried out no more than three times a day, after a day of rest and a total duration of no more than 12 procedures, with an exposure time of one TA for 1 - 2 minutes.  3. A method for the treatment of cerebrovascular accidents according to claim 1, characterized in that the intravascular low-power helium-neon laser therapy is carried out on a domestic installation of the type "Alok-1" with a wavelength of monochromatic radiation of 0.63 μm and a power at the end of the quartz fiber of the laser installation not more than 2 mW, daily for 10 days with a duration of each procedure of not more than 30 minutes, while laser therapy is carried out in combination with an assessment of the rheological properties of the blood of patients, consisting in regular measurement and the diagnosis of the state of aggregation and deformability of red blood cells, platelet aggregation and deaggregation by using a photoelectrometer, and before each laser therapy, the fiber from non-toxic glass fiber is sterilized in an alcohol (70%) chlorhexidine solution for 60 minutes, then wipe with sterile, then wipe with sterile, then wipe with sterile, then wipe with sterile The laser fiber is inserted through a puncture needle into the cubital vein at a distance of 3-5 cm, and the proximal fiber is fixed to the patient's skin with an adhesive plaster.  4. A method of treating cerebrovascular accidents according to claim 1, characterized in that the thermopuncture is carried out using infrared radiation with a wavelength of 0.9 - 1.2 μm, a power of not more than 10 mW, at one of seven frequency modes of operation (2, 5; 5; 10; 20; 40; 80; 160) Hz, with an exposure time of one TA 1 - 2 minutes, no more than twice a day, after a day of rest and the total duration of exposure no more than 10 procedures.

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