RU2169021C1 - Method for treating central nervous system pathology - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves irradiating blood externally or intravenously or in alternating the applications every second procedure. Corporal biologically active points V3, V5, T8, T12, J12, V63 are stimulated in every odd number procedure using continuous red bandwidth laser radiation. Corporal biologically active points T8, T12, J12, E40, C7, MC7 are stimulated in every even number procedure using continuous infrared bandwidth laser radiation. Auricular AP4 and AP55 points are stimulated using continuous infrared bandwidth laser radiation. Semiconductor laser with magnetic nozzle is applied in pulsating mode in infrared bandwidth to irradiate biologically active points PC9, PC12, T18-T21, PC3 every odd number procedure. This procedure is alternated with transcranial scanning of brain areas using pulsating infrared bandwidth laser radiation. EFFECT: alleviated negative influence of drugs upon organism. 13 cl

Description

 The invention relates to medicine, namely to neurology, and can be used in the treatment of pathology of the central nervous system, mainly diseases such as cerebrovascular accident, multiple sclerosis, encephalopathy, episindrome, epilepsy.

 A known method of treating epilepsy, in which, along with drug therapy, laser reflexotherapy is carried out by radiation of certain parameters at corporate points of general and directed action (RU 2071312 C1, A 61 N 5/06, 01/10/97).

 The disadvantage of this method is the selectivity of its use: exclusively for the treatment of epilepsy.

 In addition, drug therapy takes place, which negatively affects the condition of internal organs. In addition, there is a known method for the treatment of epilepsy, in which intravenous irradiation of blood is performed as monotherapy (RU 2131754 C1, A 61 N 5/06, 06/20/99).

 Although this method allows you to abandon drug therapy, it also has a significant drawback - its narrow scope (the use of intravenous blood irradiation is limited by the age of the patients: it is undesirable to do to children).

 Closest to the claimed is a method for the treatment of epilepsy, which involves the introduction of drugs, intravenous laser blood irradiation and laser reflexology by acting on cranial and corporal biologically active points (RU 97116791 A1, A 61 N 5/06, 10.08.99).

 This method has the above disadvantages: use only for the treatment of epilepsy and the use of drug therapy.

 The technical result of the invention is the creation of an effective method for the complex treatment of pathology of the central nervous system, which will allow you to abandon drug therapy, and not only significantly reduce the frequency and duration of convulsive attacks, but also stop them. The method will lead to improved attention, memory, the cessation of headaches, vegetative-vascular crises and a decrease in blood pressure fluctuations.

 The specified technical result is achieved due to the fact that in the method of treating pathology of the central nervous system, which involves laser irradiation of blood during each procedure, laser reflexology by acting on cranial and corporal biologically active points, effect on auricular biologically active points during laser reflexology and transcranial scanning of areas of the brain, while laser irradiation of blood is carried out by intravenous laser irradiation ovi, either by external laser irradiation of blood, or by alternating them through a procedure, exposure to auricular biologically active points is carried out during each procedure, and transcranial scanning of brain regions is alternated through a procedure with exposure to cranial biologically active points.

 In addition, a region of the liver and / or kidneys and / or pancreas is scanned with pulsed laser radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 50 W, a pulse frequency of 80 Hz and an exposure of 0.5 - 1 min.

 In addition, intravenous laser blood irradiation is carried out by continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 1.5 - 2.5 mW, an exposure time of 20 - 30 minutes.

 In addition, external laser blood irradiation is carried out by continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 20 mW and an exposure of 20 to 40 minutes.

 In addition, external laser irradiation of blood is carried out by pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 20 W, a pulse frequency of 1.2 - 4.8 Hz and an exposure time of 10 minutes.

 In addition, transcranial scanning of brain regions is carried out by pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 0.5 - 3 W, a pulse frequency of 8-12 Hz and an exposure of 0.5 - 1.5 min.

 In addition, corporative biologically active points are exposed to continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 20 mW and an exposure of 10 to 20 s.

 In addition, corporative biologically active points are exposed to continuous or pulsed radiation in the infrared with a wavelength of 1.3 μm, a radiation power of 2.5 mW, a pulsed frequency of 2.4-10 Hz for pulsed radiation and an exposure time of 10-20 s.

 In addition, exposure to cranial biologically active points is carried out by pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 0.5 - 3 W, a pulse frequency of 10 - 20 Hz and an exposure of 10 - 30 s.

 In addition, the impact on auricular biologically active points is carried out by pulsed or continuous radiation in the infrared range with a wavelength of 1.3 μm, a radiation power of 2.5 mW, a pulse frequency of 2.4-10 Hz with pulse radiation and an exposure of 10-15 s.

 In addition, spend 3 to 4 courses of treatment.

 In addition, a break between courses is 3 months.

 In addition, the course consists of 14 procedures.

 In addition, the first three procedures are carried out daily, and the next after 1 - 2 days.

 The low-energy laser radiation used in laser therapy, without damaging cells and tissues, has a pronounced biostimulating effect, activating the most important protective processes of the body.

 Biologically active points of the body are more sensitive to various kinds of physical influences compared with adjacent areas of the skin and underlying tissues. Therefore, when they are irradiated, a higher result arises even for a small dose of exposure.

 The set of essential features presented in the claims is sufficient to achieve the specified technical result associated with an increase in the therapeutic effect of the proposed method compared to the known ones, which is achieved due to the complex combined laser exposure to blood, biologically active points, brain regions in the specified combination and combination .

 As a device for intravenous laser blood irradiation (VLOK), lasers with a continuous-wave semiconductor emitter with a wavelength of 0.63 μm and a power of up to 4.5 mW (for example, ALT "Mulat") can be used. The effect is carried out by introducing an injection needle connected to the fiber into a cubital or other accessible vein for injection.

 An ALT Mustang semiconductor laser apparatus with a laser emitting head is used as a device for external laser blood irradiation of blood (NLOK) (for example, KLO4 laser emitting head can be used: exposure mode - continuous, wavelength 0.63 μm, power - 20 mW or LO4 laser emitting head: exposure mode - pulsed, wavelength 0.89 μm, power - 20 W, pulse frequency - 1.2-4.8 Hz) with a mirror or magnetic nozzle.

 The place of irradiation is the projection of the cubital vein or sinocarotid zone symmetrically on both sides in direct contact with the compression of the laser emitting head with a mirror or magnetic nozzle.

 As a device for laser reflexology, semiconductor lasers are used, for example, a Mustang ALT semiconductor laser apparatus with laser emitting heads (for example, KLO4 or L04 with the previously indicated modes).

 For transcranial scanning of the area of the brain, which should be understood as the laser effect penetrating through the skin and bones of the skull on the area of the brain located in the projection of the frontal, temporal, parietal or occipital bones of the skull, the ALT Mustang semiconductor laser device and laser emitting head are used LO4.

 To scan the area of the liver, kidneys, pancreas, the ALT "Ant - T" semiconductor laser apparatus is used (the exposure mode is pulsed, the wavelength is 0.89 μm, the radiation power is 40 W, the pulse frequency is 80 Hz).

 Scanning is carried out contactlessly without compression of the skin in the area of projection of organs onto the skin in a given mode.

 The method is as follows.

 In a patient with a brain disease, after conducting the necessary examinations (for example, electroencephalography - EEG, computed tomography - CG), collecting an anamnesis and establishing a diagnosis, the doctor decides on the appropriateness of treatment using this technique.

 After that, the doctor conducts a computer diagnostics of the functional state of the meridians, based on the measurement of electric skin resistance (EX) at representative points of acupuncture according to Nakatani (riodorak) (Electropuncture diagnostics, Kiev, JSC Ukrprofzdravnitsa, 1997).

 Depending on the functional state of the meridian, biologically active points (BAP) and the mode of exposure to them are chosen.

 According to the results of computer diagnostics according to Nakatani (riodorak), most often, patients who underwent drug therapy, individually for each patient, the place of exposure is additionally determined (area of the liver, and / or kidney, and / or pancreas).

 Laser irradiation of blood can be performed only by intravenous laser irradiation (in severe and advanced cases of the course of the disease), or only by external laser irradiation of blood (for example, in children), or by alternating them through a procedure (in other cases, to obtain the optimal therapeutic effect) .

 Further, in the description of specific examples of the method, the French designation of the meridians and BAT is used.

 Examples of the method.

 Example 1. Patient V.V.V., born in 1978 He complained on October 5, 1998 with complaints of attacks with loss of consciousness and convulsions and without convulsions. The complete lack of effect in the treatment of drugs.

 Anamnesis: Attacks began in 1987, the etiology and pathogenesis are unknown. The frequency of attacks: absences - 2 times a week; generalized tonic-clonic seizure once every three weeks. Constantly takes: finlepsin 1/2 tablet 2 times a day; phenobarbital 1 tablet at night.

 Diagnosis: epilepsy with polymorphic seizures.

 Examination results: EEG - moderate diffuse changes in the EEG with signs of dysfunction of the median and stem structures of the brain. Reducing the threshold of excitability. A focus of epileptic activity is recorded in the temporal region of the left hemisphere of the brain. KG - pathology is not detected. Variant of the norm.

 A course of treatment of 14 procedures was carried out. The first three procedures are daily, and the subsequent after 1 - 2 days.

 VLOK (N 7) through the procedure alternated with NLOK (N 7). VLOK is carried out by continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 1.5 mW and an exposure of 20 minutes. When NLOC - exposure mode - continuous in the red range with a wavelength of 0.63 microns, radiation power - 20 mW, exposure - 30 minutes NLOC was performed on the region of the synocarotid zone from two sides.

 In parallel with these activities, laser reflexology was performed by acting on BAT selected after computer diagnostics.

 They acted on corporal BATs in combination, alternating laser radiation in the red and infrared ranges through the procedure. In the red range, the exposure was carried out by continuous radiation with a wavelength of 0.63 μm, a radiation power of 20 mW and an exposure of 20 s (N 7 through the procedure). In the infrared range, the exposure was carried out by pulsed radiation with a wavelength of 1.3 μm, a pulsed frequency of 10 Hz, a power of 2.5 mW, and an exposure of 15 s (N 7 through the procedure).

 Affected points V3 + V5 + T8 + T12 + J12 + V63 (through the procedure, into the odd procedure) and T8 + T12 + J12 + E40 + C7 + MC5 (through the procedure, into the even procedure). The impact on the pair points V3, V5, E40, C7, MC5 is made on both sides.

 The impact on the cranial points (N 7) was alternated through a procedure with transcranial contact scanning of the parietal region of the brain, since the projection of this region contains the portion of the cerebral cortex responsible for motor function.

 In an odd procedure, a semiconductor laser with a magnetic nozzle (50 mtl) was exposed to pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 0.5 W, a pulse frequency of 10 Hz and an exposure of 20 s on cranial BAT: PC9 + PC13 + T18 + T19 + T20 + T21 + PC3. The pair points of PC9, PC13 acted symmetrically on both sides.

 In an even procedure, transcranial scanning was performed on the parietal region of the brain, on both sides (left and right). Scanning was carried out contact symmetrically on both sides by a semiconductor laser with pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 1 W, a pulse frequency of 10 Hz and an exposure of 1 min.

 Auricular points (N 14) were applied on both sides to each procedure by a semiconductor laser with pulsed radiation in the infrared range with a wavelength of 1.3 μm, a radiation power of 2.5 mW, a pulse frequency of 2.4 Hz, and an exposure of 10 s. Auricular biologically active points of exposure: AP34 and AP55.

 In each procedure, exposure to the liver region (N 14) was carried out with a semiconductor laser in the infrared range with a wavelength of 0.89 μm, a radiation power of 50 W, a pulse frequency of 80 Hz, and an exposure of 1 min.

 The second visit 3 months after the end of the last procedure. The number of generalized seizures decreased to 1 seizure in three months, and the strength of the seizure decreased sharply. The number of absences decreased to once every three weeks.

 Survey results: EEG - measured diffuse changes in the EEG with signs of dysfunction of the median and stem structures of the brain. No foci of epileptic activity were detected. CT scan - no change from previous examination.

 Appointed a second course of treatment.

 Third visit in 3 months. Epileptic seizures are absent. On the EEG - moderate diffuse changes in the EEG with signs of dysfunction of the median and stem structures of the brain. The threshold of excitability increased to normal, no epiactivity was detected.

 A third course of treatment has been prescribed.

 After treatment for a year, remission was observed, no seizures.

 Example 2. Patient 3. I. S., born in 1975, complained on September 10, 1998 of memory, attention, apathy, fatigue, depression, sleep disturbance, headache, unmotivated aggressiveness. There was no effect with medication.

 Anamnesis: complaints of decreased memory, attention, apathy, fatigue, depression, sleep disturbance, headache, unmotivated aggressiveness began in April 1998 after a moderate head injury sustained in a car accident on November 6, 1997.

 Diagnosis: post-traumatic encephalopathy.

 Survey results: EEG conclusion - moderate changes in background activity in the form of irregularity and deformation of the main rhythm on the right in the temporal leads. The conclusion of the CG - deviations from the norm were not identified.

 The patient underwent a course of treatment of 14 procedures, with the first three procedures performed daily, and the following after 1-2 days. NLOK (N 14 each procedure) was performed on the projection of the synocarotid zone by continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 20 mW and an exposure of 20 min (N 7), alternating through a procedure with pulsed radiation in the infrared range with a length waves of 0.89 microns, a radiation power of 20 W, a pulse frequency of 2.4 Hz and an exposure of 10 minutes (N 7).

 In parallel with these activities, laser reflexology was performed by acting on BAT selected after computer diagnostics.

 They acted on corporal BATs in combination, alternating laser radiation in the red and infrared ranges through the procedure.

 In the red range, the exposure was carried out in an odd procedure by continuous radiation with a wavelength of 0.63 μm, a radiation power of 20 mW and an exposure of 10 s (N 7) through the procedure. In the infrared range, the exposure was carried out in an even procedure by continuous radiation with a wavelength of 1.3 μm, a radiation power of 2.5 mW and an exposure of 10 s.

 The exposure was carried out on points V3 + V5 + T8 + T12 + J12 + V63 (through the procedure, into the odd procedure) and T8 + T12 + J12 + E40 + C7 + MC5 (through the procedure, into the even procedure). The impact on the pair points V3, V5, E40, C7, MC5 is made on both sides.

 The impact on the cranial BAT (N 7) was alternated through a procedure with transcranial scanning of the frontoparietal-occipital regions of the brain (N 7).

 In an odd procedure, a semiconductor laser with a magnetic nozzle (50 mtl) was exposed to pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 0.5 W, a pulse frequency of 10 Hz and an exposure of 10 s on cranial BAT: PC9 + PC13 + T18 + T19 + T20 + T21 + PC3. The pair points of PC9, PC13 acted symmetrically on both sides.

 In an even procedure, transcranial scanning of the frontoparietal-occipital regions of the brain was performed. The scanning was carried out by a contact semiconductor laser with pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 0.5 W, a pulse frequency of 8 Hz and an exposure of 0.5 min.

 Along with the indicated measures, the auricular points (N 14) were applied on both sides to each procedure by a semiconductor laser with continuous radiation in the infrared range with a wavelength of 1.3 μm, a radiation power of 2.5 mW, and an exposure of 10 s on each side. Auricular biologically active points of exposure: AP34 and AP55.

 In each procedure, the pancreas (N 14) was exposed to a semiconductor laser by pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 50 W, a pulse frequency of 80 Hz, and an exposure of 0.5 min.

 Second visit in 3 months. Subjective complaints of a slight decrease in memory, attention, apathy, depression.

 Survey results: EEG conclusion - slight changes in background activity in the form of irregularity and deformation of the main rhythm on the right in the temporal leads. Positive dynamics compared to the previous EEG. The conclusion of the CG - deviations from the norm were not identified.

 Appointed a second course of treatment. Third visit in 3 months. No complaints. Examination results: EEG conclusion - α - regular rhythm, no rhythm deformities. Variant of the norm. The conclusion of the CG - 1998 - no deviations from the norm were found.

 A third course of treatment has been prescribed.

 During the year, the previously mentioned complaints were not noted.

 Example 3. Patient S. Ye. P., born in 1956, complained of instability and shakiness when walking, hand tremors, impaired sensation with numbness in the legs, dizziness, weakness in the arms and legs.

 Anamnesis: considers herself a patient for 5 years, when complaints about instability and shakiness when walking, tremor of hands, impaired sensation with a feeling of numbness in the legs, dizziness, weakness in the arms and legs, aggravated by physical exertion, first appeared. Medication is not effective.

 Diagnosis: multiple sclerosis.

 Survey results: as a result of fundus examination, pallor of the temporal halves of the optic nerve discs was revealed. On examination, revitalization of tendon reflexes with the expansion of reflexogenic zones, loss of superficial abdominal reflexes was revealed. A slight violation of coordination of movements, a symptom of Lermitt, a sensation of the passage of current along the back and limbs when the head is tilted anteriorly. Non-epileptic paroxysmal seizures are noted.

 The patient underwent a course of treatment of 14 procedures, with the first three procedures carried out daily, and the following after 1-2 days. VLOK (N 14 each procedure) was performed by introducing an injection needle connected to the fiber into the cubital vein by continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 2.5 mW and an exposure of 30 minutes.

 In parallel with these activities, laser reflexology was performed by acting on BAT selected after computer diagnostics.

 They acted on corporal BATs in combination, alternating laser radiation in the red and infrared ranges through the procedure.

 In the red range, the exposure was performed in an odd procedure by continuous radiation with a wavelength of 0.63 μm, a radiation power of 20 mW and an exposure of 20 s (N 7) through the procedure. In the infrared range, the exposure was carried out in an even procedure by pulsed radiation with a wavelength of 1.3 μm, a radiation power of 2.5 mW, a pulse frequency of 10 Hz and an exposure of 20 s. The exposure was carried out on points V3 + V5 + T8 + T12 + J12 + V63 (through the procedure, into the odd procedure) and T8 + T12 + J12 + E40 + C7 + MC5 (through the procedure, into the even procedure). The impact on the pair points V3, V5, E40, C7, MC5 is made on both sides.

 The impact on the cranial BAT (N 7) was alternated through a procedure with transcranial scanning of the temporal-parietal region of the brain (N 7), which is responsible for motor function.

 In an odd procedure, a semiconductor laser with a magnetic nozzle (50 mtl) was exposed to pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 0.5 W, a pulse frequency of 10 Hz and an exposure of 10 s on cranial BAT: PC9 + PC13 + T18 + T19 + T20 + T21 + PC3. The pair points of PC9, PC13 acted symmetrically on both sides.

 In an even procedure, a transcranial scan of the temporoparietal region of the brain was performed. Scanning was carried out contact symmetrically on both sides by a semiconductor laser with pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 3 W, a pulse frequency of 12 Hz, and an exposure of 1.5 minutes.

 Along with the indicated measures, the auricular points (N 14) were applied on both sides to each procedure by a semiconductor laser with pulsed radiation in the infrared range with a wavelength of 1.3 μm, a radiation power of 2.5 mW, a pulse frequency of 10 Hz, and an exposure of 15 s. Auricular biologically active points of exposure: AP34 and AP55.

 In each procedure, exposure to the region of the liver, kidneys and pancreas (N 14) was carried out by a semiconductor laser with pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 50 W, a pulse frequency of 80 Hz, and an exposure of 1 min.

 Second visit in 3 months. Previous complaints persist, but are less pronounced.

 Examination results: as a result of fundus examination, a decrease in pallor of the temporal halves of the optic nerve discs was revealed. On examination, a decrease in the revitalization of tendon reflexes was revealed. The decrease in the coordination of movements, the sensation of the passage of current along the back and along the limbs when the head is tilted anteriorly is slightly expressed.

 Appointed a second course of treatment.

 Third visit in 3 months. The patient is stable, shakiness during walking has disappeared, hand tremor is insignificant, sensitivity is normal, numbness in legs, dizziness, weakness in arms and legs are absent.

 Survey results: as a result of fundus examination, no pathology was detected. Tendon reflexes are normal.

 Within 1 year of the previously mentioned complaints were not noted.

 As a result of the treatment by the proposed method, a distinct therapeutic effect was noted in all patients, which is achieved due to the combined and complex laser exposure to various organs and physiological systems of the patient's body.

Claims (13)

 1. A method of treating a pathology of the central nervous system, including laser irradiation of blood, exposure to biologically active points and brain regions with laser radiation, characterized in that laser irradiation of blood is performed externally or intravenously, or by alternating them through a procedure and effecting corporal and auricular biologically active points, while in the odd procedure they act on the corporal points V3, V5, T8, T12, J12, V63 by continuous laser radiation in the red range, and in the even procedure ru affect the corporal points T8, T12, J12, E40, C7, MC5 with laser radiation in the infrared range, auricular points AP34 and AP55 are affected by laser radiation in the infrared range, and the action of a semiconductor laser with a magnetic nozzle pulse radiation in the infrared range on biologically active points of PC9, PC12, T18, T19, T20, T21, PC3, carried out in an odd procedure, alternate with transcranial scanning of brain regions by pulsed laser radiation in the infrared range.  2. The method according to claim 1, characterized in that it additionally scans the region of the liver and / or kidney and / or pancreas with pulsed laser radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 50 W, a pulse frequency of 80 Hz, exposure 0.5 - 1 min.  3. The method according to claim 1, characterized in that the external laser irradiation of blood is carried out by continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 20 mW, an exposure of 20 to 40 minutes  4. The method according to claim 1, characterized in that the external laser irradiation of blood is carried out by pulsed radiation in the infrared range with a wavelength of 0.89 μm, a radiation power of 20 W, a pulse frequency of 1.2 - 4.8 Hz and an exposure of 10 minutes  5. The method according to claim 1, characterized in that the intravenous laser irradiation of blood is carried out by continuous radiation in the red range with a wavelength of 0.63 μm, a radiation power of 1.5 to 2.5 mW, an exposure of 20 to 30 minutes  6. The method according to claim 1, characterized in that the exposure to corporate biologically active points by continuous laser radiation in the red range is carried out with a wavelength of 0.63 μm, a power of 20 mW and an exposure of 10 to 20 s.  7. The method according to claim 1, characterized in that the exposure to corporate biologically active points by continuous or pulsed laser radiation in the infrared range is carried out with a wavelength of 1.3 μm, a radiation power of 2.5 mW, a frequency of 2.4 - 10 Hz at pulsed radiation and exposure of 10 - 20 s.  8. The method according to claim 1, characterized in that the exposure to auricular biologically active points by laser radiation in the infrared range is carried out with a wavelength of 1.3 μm, a radiation power of 2.5 mW continuous or pulsed radiation, a frequency of 2.4 - 10 Hz with pulsed radiation and an exposure of 10 - 15 s.  9. The method according to claim 1, characterized in that the effect on the biologically active points of PC9, PC12, T18, T19, T20, T21, PC3 is carried out by a semiconductor laser with a magnetic nozzle of 50 mT, pulsed radiation in the infrared range with a wavelength of 0.89 microns, a radiation power of 0.5 W, a pulse frequency of 10 Hz and an exposure of 20 s.  10. The method according to claim 1, characterized in that the transcranial scanning of brain regions by pulsed laser radiation in the infrared range is carried out with a wavelength of 0.89 μm, a radiation power of 0.5 to 3 W, a pulse frequency of 8 to 12 Hz and an exposure of 0 5 - 1.5 minutes  11. The method according to claim 1, characterized in that the course of treatment consists of 14 procedures.  12. The method according to claim 1, characterized in that spend 3 to 4 courses of treatment.  13. The method according to PP. 1 and 12, characterized in that the interval between courses is 3 months.