RU2012234C1 - Method of determining magnetotherapy effectiveness at curing cerebrovascular diseases - Google Patents

Abstract

FIELD: medicine, neurology. SUBSTANCE: method involves measuring a depth temperature of brain prior to and after action of magnetic field upon a region of the neck. If temperature increase is equal to at least 0.2 degrees C, the treatment is considered to be effective. EFFECT: enhanced accuracy. 4 tbl

Description

 The invention relates to medicine, namely to neurology and can be used in the treatment of patients with cerebrovascular accident. The problems of non-drug therapy are increasingly attracting the attention of researchers and practitioners. The use of non-pharmacological methods of treatment as a basic therapy has a hypotensive effect in 40-60% of cases with hypertension.

One of the effective methods of non-drug treatment of hypertension and vascular diseases of the brain is magnetotherapy (MT) with alternating, constant and pulsed magnetic fields with exposure to paravertebral points at the level of C ₅ - D ₄ . However, despite the prevalence of this technique, there is no way to determine magnetosensitivity that sufficiently reflects a change in cerebral blood supply after a single exposure to a magnetic field, which leads in a number of cases to unsatisfactory treatment results.

 A known method of determining magnetosensitivity by measuring blood pressure on the brachial artery before and after a single exposure to MP.

 However, it cannot be used to judge changes in cerebral blood supply, since the latter has a certain degree of autonomy.

 There is a method of determining magnetosensitivity in order to identify intolerance to the acting factor (magnetotherapy) and other individual characteristics of magnetotropic reactions, which takes into account a complex of changes in subjective and objective signs of a person when exposed to a magnetic field, as well as in case of an adverse change in heliogeomagnetic factors (Method. Recommendations "Method for assessing magnetotropic reactions in healthy and sick people. 1987).

 This method does not have sufficient objectivity and requires a large amount of time for its implementation and interpretation.

 There is a method of determining magnetosensitivity in order to select the optimal dose (mode) of magnetotherapy by changing the leukocyte formula 3-6 - 24 hours after exposure to MP. This method is objective enough, but involves repeated repetition of the blood sampling procedure, which causes a risk of infection, is not accurate enough due to the influence of other factors on the subject in the time interval between successive blood samples, in addition, this method does not have sufficient efficiency and requires a lot of time for its implementation (L. Kh. Garkavi et al. Activation reactions of an organism. Rostov-on-Don, 1985).

 For the prototype of the invention, a previously known method for determining magnetosensitivity is selected, including exposure to a magnetic field.

 The method selected as a prototype is as follows: measure blood pressure; act with a magnetic field and again measure blood pressure.

 The disadvantages of this method include the following: a change in blood pressure cannot serve as criteria for improving cerebral blood flow, since the latter has a certain autonomy (Schmidt E.V. Vascular diseases of the nervous system. M.: Medicine, 1975, p. 70).

 The aim of the invention is to improve the accuracy of the method.

 The goal is achieved by the fact that in the known method, including exposure to a magnetic field, measure the deep temperature of the brain before and after exposure to a cervical-collar zone with a magnetic field, and when the temperature rises, the magnetic sensitivity is determined as high, and in the absence of dynamics - as high, and in the absence - how low.

 The proposed technical solution meets the criterion of "novelty", since in the proposed method, before and after exposure to a magnetic field, the deep temperature of the brain is measured.

 In the proposed method, a magnetic field is applied to the cervical-collar zone.

 In the present invention, with increasing temperature, the magnetosensitivity is determined as high, in the absence of dynamics, as low.

 The present invention meets the criterion of "significant difference", since in the present invention measure the deep temperature of the brain. A known method of determining magnetosensitivity without measuring the deep temperature of the brain (Deryapa N. R., Trofimov A.V., Pavlenko S.S., Method of drug-free correction of blood pressure through reflexology points in patients with hypertension Method. Recommendations. 1987, p. 12).

 A known method for determining the deep temperature of the brain, but in the present invention, the measurement is carried out in order to determine magnetosensitivity, while in the known (Tseytlina V.N., Functional asymmetry of radiothermometry in the early diagnosis of vascular brain lesions. Abstract, Cand. Dis. Kazan., 1987, 23 with). deep brain temperature is carried out for diagnostic purposes (identification of focal pathology, vascular insufficiency, autonomic reactivity, etc.).

 The invention is carried out as follows.

Using a decimetric radiothermometer, the deep brain temperature is measured alternately at 4 standard points: the frontal, temporal, asphyxial and occipital right and left heads. Then they conduct 1 session of AMT-01 magnetotherapy for 10 minutes into the cervical-collar zone (C-4 - D-5 paravertebral lines) and again measure the deep temperature of the brain at the same points. Then determine the degree of magnetosensitivity. With an increase in T ^o of the brain by 0.6-0.9 ^o C, a conclusion is made about high sensitivity, with an increase in T ^o from 0.2 to 0.5 ^o C - about average magnetosensitivity, with a constant T ^o - 0 ± 0, 1 ^C - a low magnetic sensitivity and is lowered to 0.5 T ^{o C.} inversion of magnetic sensitivity.

 High and medium degrees of magnetosensitivity are a direct indication for magnetotherapy. The effect of magnetotherapy in this case is observed in 83.5% (in the prototype in 62%). With a low level of magnetosensitivity, the effect of magnetotherapy was observed in 31%.

 Inversion magnetosensitivity is a relative contraindication to magnetotherapy.

 The proposed method examined 115 patients and 20 healthy individuals. In patients with a high and medium degree of magnetosensitivity in 83.5% of cases, there was a persistent improvement in the form of the disappearance or significant reduction of subjective and objective signs of the disease, persistent hypotensive effect on average by 25 mm RT. Art. systolic and 13 mm RT. Art. diastolic blood pressure, lowering the initially increased tone of the cerebral vessels, improving venous outflow according to REG.

At low magnetic sensitivity (0-0.2 ^{° C),} the positive effect was observed in 31% of cases. With inverse magnetosensitivity, intolerance to procedures, hypertensive crises, and an increase in regional vascular tone were often observed.

 Hence we can conclude that the proposed solution meets the criteria of the invention "positive effect", since the proposed method allows to increase the accuracy of determination of magnetosensitivity in patients with cerebrovascular pathology.

 A comparison of the features of the prototype and the proposed method for a positive effect are presented in table. 1.

 The economic effect was achieved by increasing the effectiveness of magnetotherapy prescribed for direct indications to patients with medium and high magnetosensitivity, as well as in the correct selection of the multiplicity of procedures and the duration of the course depending on the magnetosensitivity, and also due to the rational use of working time by medical personnel of the magnetotherapy cabinet.

 Examples of specific performance are given in the form of extracts from medical records.

 Patient B. N and B. 26259 was in Sh n. about. with. 14 / XI to 30 / XI-1990, regarding the initial discirculatory encephalopathy with cephalgic syndrome and frequent hypertensive crises against the background of hypertension II A Art.

 The patient was admitted with complaints of persistent headache in the frontal and occipital region, dizziness by the type of staggering, memory impairment, decreased performance, crises repeated every other day with pain in the heart, palpitations, agitation, fear of death, frequent urination, chills-like trembling , increase in blood pressure to 240/140 mm RT. Art. A patient about 10 years old suffers from hypertension with crises 1 time in 3 months. Within 1.5 months against the background of overwork, the patient's condition worsened in the form of increased crises, decreased performance, dizziness, and headaches. Applying during this time, trireside 1 t. X 3r. per day, pyrroxan 1t. x 2r. per day, anaprilin 1 t. x 2 p. per day, however, the condition remained the same.

 Upon admission to the clinic, the patient had BP 160/100 mm Hg. Art. , pulse - 96 beats. per min, pallor of the skin, white dermographism, anxiety, sleep disturbance, the Daini-Ashner reflex was not caused, the clinostatic test was accompanied by an increase in systolic blood pressure by 30 mm RT. Art. , increasing heart rate by 35 in 1 min. In neurological status, hyperreflexia, proboscis reflex, Tremner reflex, on both sides, functional asymmetry of facial muscles, decreased corneal reflexes, hesitant performing nasal test, tremor of the hands during examination were noted. On REG there were signs of an increase in vascular tone of the cerebral vessels, a decrease in the pulse blood flow, difficulty in the venous outflow more pronounced in the VBA system. On radiographs of the skull, pathology was not detected. On the fundus - angiopathy of the hypertonic type, ECG - signs of left ventricular hypertrophy, diffuse changes in the myocardium in s. T.

From the moment of receipt I received treatment: Adelfan 1 t. X 3 p. per day, sibazon 1 t. x 2 p. per day, aminalon 1 t. x 4 p. per day, nicotinic acid 1% w / w, vit. In ₁ and ₆ in / m. Within 1-2 days, the patient daily appeared crises of the type described above. On the 3rd day, a magnetotherapy test procedure was taken, during which the magnetosensitivity was determined with the Radiothermometer - MRT-30 device. The brain temperature was measured at 4 standard points on each side of the head before and after magnetotherapy, as well as blood pressure on the left hand before and after magnetotherapy and 2 times during it. The results are presented in table. 2.

After magnetotherapy, a high level of magnetosensitivity was detected (an increase in the frontal region by 1.2 ^° C), while a low level of magnetosensitivity was revealed by measuring blood pressure. Immediately after magnetotherapy, the patient felt a decrease in headaches, a "surge of strength", a slight decrease in dizziness, and an improvement in mood. A high level of magnetosensitivity allowed the patient to be prescribed magnetotherapy using the Magniter-AMT-01 apparatus in the ward. Conducted 10 procedures. From the 1st day of magnetotherapy, crises did not recur, on the 3rd day headaches, dizziness significantly decreased, general activity increased, patient mobility disappeared, face pasteness disappeared, skin integuments became physiological in color, dermographism turned pink, unstable, blood pressure stabilized at 130 mmHg Art. systolic and 90 mm RT. Art. diastolic, despite reducing the dosage of adelfan to 1 t. x 2 p. per day, the heartbeat did not bother. Memory improved, anxiety disappeared, hyperreflection decreased, facial muscles revitalized, coordination. On REG, the tone of the cerebral vessels decreased significantly, the venous outflow returned to normal, and the pulse blood flow increased. The patient was discharged with significant improvement and recovery. Observations after 3 and 6 months did not reveal a deterioration.

 Patient S. N and b. 792 was in the clinic from 9 / II to 28 / II of 1989 about the initial discirculatory encephalopathy, mainly in the IBA system with cochlevestibular disorders against the background of hypertension of the II st. Complaints at admission: headaches, dizziness, noise in the head, fatigue, memory loss, spontaneous pains breaking in the heart. Hypertension 10 years with crises 1 time in 3 months. cerebral symptoms observed over 5 years with a gradual progression. It takes clonidine 0.075 mg x 3 p. per day, regularly, Cavinton 1 t. x 3 p. per day, in courses, observes an antihypertensive diet, does exercise therapy, but the condition worsens. Upon admission, obesity III tbsp. , the face is hyperemic, the skin is pasty, dermographism on the chest is red, not stable, on the legs is white, with moderate physical exertion - hyperteriosis, blood pressure 180/115 mm RT. Art. , Heart rate 78 beats. in 1 min, the pulse is rhythmic. Vegetative reactivity and vegetative support are slightly reduced. There is lethargy, inattention, memory loss. In neurological status: proboscis reflex, decrease in corneal reflexes, functional asymmetry of the face, hypomimia, nystagmoid feast when viewed from the side, instability in the complicated Romberg position, hyperreflexia, Tremner reflex on both sides. On REG, a decrease in pulse blood flow, an increase in vascular tone, and vertebrogenic effects of the reaction on nitroglycerin are slightly toridic. ECG - signs of left ventricular overload. The fundus of the eye is hypertensive retinal angiopathy. Magnetosensitivity determination data - see table. 3.

Thus, an average degree of magnetosensitivity was recorded (an increase in T ^{o by} an average of 0.3-0.4 ^o C). The average degree of magnetosensitivity is also determined by blood pressure. Against the background of complex therapy using magnetotherapy with the Magniter AMT-01 apparatus for the cervical collar zone 2 times a day for 10 minutes, it was possible to achieve good treatment results in the form of the disappearance of headaches, a significant reduction in the intensity of noise and dizziness, the patient's facial expressions were revived, and the increased disappeared fatigue, vegetative support improved, blood pressure stabilized at 140/80 mm Hg. Art. According to the REG, the initially increased tone of the cerebral vessels decreased to normal numbers (which was not observed on average in the control group), the venous outflow improved, and the pulse inflow in the cerebral vessels increased. In this case, the average level of magnetosensitivity caused a twofold use of the magnetic field per day, which allowed achieving results that exceeded the average therapeutic effect in the control groups.

 Patient K., N and b. 389 was in the clinic from 10 / I to 9 / II of 1989 regarding discirculatory encephalopathy with cephalgic syndrome against the background of hypertension II tbsp. Complaints of constant headaches, dizziness, general weakness, shortness of breath during physical exertion, superficial sleep, noise in the head. Hypertension 2 tbsp. 10 years, with a constantly progressing crisis-free course. Brain symptoms joined for 3 years. HELL is held on the numbers 160-170 / 110 mm RT. Art. Antihypertensives (clonidine 0.75 mg) is taken irregularly. On admission: the skin is moist, the face is hyperemic, spilled dermographism, red, obesity III tbsp. ; HELL 150/105 mm RT. Art. , pulse 66 beats in 1 min, rhythmic. Ashner Reflex - 16 beats. in min, a clino-orthostatic test revealed a lack of vegetative support. In neurological status: emotional rigidity, straightforwardness, memory loss, diffuse micro-focal symptoms. REG - increased vascular tone, difficulty in venous outflow, vertebral effects. The fundus of the eye is hypertensive retinal angiopathy. ECG - left ventricular myocardial hypertrophy. Magnetic sensitivity test (see table. 4).

 T. about. , the test for magnetosensitivity revealed a low magnetosensitivity (no increase in temperature), while the average level of magnetosensitivity is determined by blood pressure. Further use of magnetosensitivity 2 times a day for 15 days as part of complex therapy did not bring results different from the control group. HELL stabilized at 150/100 mm Hg. Art. using clonidine 0.075 mg x 2 p. per day and furasemida 40 mg 2 p. per week, the headache decreased slightly, but did not disappear completely, the noise in the head and dizziness subsided slightly. REG data revealed an improvement in vascular tone and an improvement in venous outflow, however, these changes did not exceed the average level in the control group. The patient was discharged with moderate improvement. During a trial session of magnetotherapy, the patient developed acute pain in the cervical-occipital region with radiation to the temporal region. When magnetotherapy was repeated the next day, the patient again developed headaches, and therefore the procedures had to be canceled.

 T. about. lowering the temperature of the brain in response to exposure to a magnetic field (inversion reaction) is accompanied by a deterioration in the patient's condition and may serve as a contraindication for magnetic therapy.

Claims (1)

METHOD FOR DETERMINING MAGNETOTHERAPY EFFICIENCY DURING TREATMENT OF CEREBROVASCULAR DISEASES by evaluating physiological parameters before and after exposure to a magnetic field, characterized in that the deep brain temperature is measured before and after exposure to the cervical-collar zone and when the temperature rises by 0.2 ^o C and above treatment is determined effective.

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