RU1792717C - Method for treating arterial hypertension - Google Patents

Abstract

Usage: in medicine. The essence of the invention consists in the fact that the Zakharyin-Gede zones were additionally irradiated and antihypertensive agents were included in the treatment complex. A positive effect is the acceleration of the onset of the clinical effect and the normalization of immune and coagulation hemostasis. 1 table.

Description

The invention relates to the field of medicine and relates to the treatment of patients with arterial hypertension can be used in cardiology and nephrology.

| Closest to the invention in terms of technical nature and the achieved beneficial effect is a method of treating with a helium-neon laser 4 hypertension and certain neurological diseases. However, this method | requires a long time and does not give a lasting therapeutic effect.

The aim of the invention is to reduce the treatment time.

This goal is achieved by irradiating the light of a helium-neon laser with Clinocarot1 / | zones, Zakharyin-Gede zones, alternating every other day for 20 s with gradually increasing exposure for 20 s, adjusting the exposure to 120 s.

The method is carried out in the following manner: with the help of a helium-neon laser, type LG-75 (wavelength nm, output power 25 mW) is carried out alternately, irradiation of the Zakharyin-Gede zones every other day

(sternum, left axillary region, apex of the heart) and sinocarotid zones (lateral parts of the neck) with a gradually increasing exposure to radiation exposure, starting at 20 s and ending at 2 min. The total time of one session did not exceed 6 minutes. Begin light therapy with a higher exposure (1-1.5 min). In 8 patients (out of 37; 22%), exacerbation of the renal process was caused in patients with nephrogenic arterial hypertension.

Scheme of treatment with light of a low-energy helium-neon laser: .. 1st day20 s

2nd day40 s

3rd day1 min

4th day1 min 30 s

5th day2 min. Therefore, beginning only with the 5th procedure, the exposure to radiation was 2 minutes. With this exposure, the treatment is completed, which amounted to 10-12 procedures. A further increase in exposure to radiation exposure is impractical due to the possible occurrence of side effects, i.e. photoreactions.

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As the main treatment, patients received antihypertensive therapy (clonidine, adelfan, Veta-adrenergic blocking agents, diuretics).

The severity of arterial hypertension was moderate and amounted to 21.4-24.0 kPa (161-180 mmHg) for systological pressure, and 12.6-13.4 kPa (95-101 mmHg) for diastological pressure. :; -;

Based on a comparative analysis of the treatment by the proposed method and the already known (prototype) it was established (see table): in the main group of patients, a decrease in systolic blood pressure by 4.6-5.3 kPa (35-40 mmHg) was observed. diastolic pressure - 2.0-2.2 kPa (15-20 mmHg), in the control - 1.3-2.0 kPa (10-15 mmHg) and 0.6-0.9 kPa (5-7 mmHg), respectively. In addition, in 1/3 of patients receiving a course of laser light treatment, a transition from stable hypertension to labile hypertension was observed. In the control group, such a transformation was not observed.

Positive dynamics of some indicators of cardiodynamic dynamics was noted - the heart volume increased from 64.1 ± 0.92 cm3 (before treatment) to 68.6 ± 1.34 cm3 (.05) and the cardiac output decreased (due to a decrease in heart rate) s 4530 ± 20.6 cm3 (before treatment) up to 3887 ± 31.1 cm3

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Laser therapy has contributed to some

a slight increase in the percentage of T-lymphocytes in the peripheral blood. So, for example, if before treatment percentage co.

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T-lymphocyte retention was 18.62 ± 0.50, then after treatment, these pokeglites reached 23.54 ± 1.16 (, 05). The same applies to the concentration of class G immunoglobulins: before treatment - 8.45 ± 0.62 g / l, after treatment with a laser - 12.65 ± 0.87 g / l (, 05). Against the background of such an increase in the level of class G immunoglobulins, a decrease in the concentration of class A immunoglobulins occurred (from 3.67 ± 0.46 g / l before treatment to 2.97 ± 1.25 g / l after treatment,, 05).

The dynamics of hemostasis and fibrinolysis of the patients we observed was even more clear. After the first session of laser therapy in patients of the main group, an increase in the blood coagulation potential of the blood was observed, followed by a sharp decrease and even a tendency to hypocoagulation shifts. Thus, the thromboelastogram gram index g before treatment was 3.3 ± 0.34 min. after treatment, 11.3 ± 1.1 minutes (, 05), MA score of -48.7 ± 2.53 mm and 40.2 ± 2.36 mm, respectively (, 05). Similar dynamics were not observed in the group of patients treated with the traditional prototype method. ;:. Thus, the positive effect of low-energy helium-neon laser rays is especially important in patients with nephrogenic arterial hypertension, since such therapy is also pathogenetic in relation to the underlying disease. .

Forms of shade

that one. that, in order to shorten the V treatment period, the Zakharyin zones are irradiated. The method of treating arterial hyper-Ged is alternately every other day for 20 seconds with tensi by irradiating helium-neo-45 light with a gradual increase in exposure of the new laser of synocarotid zones, from l to 20 s , exposure exposure to 120s.

Cardiac hemodynamics systolic blood pressure, kPa diastolic blood pressure, kPa stroke volume of the heart dynamics of the disease

Immune System T Cell Count

(1 note. AD - arterial pressure; Ig - immunoglobulin; 05 reliability for

relation to untreated.

22.3-0.7517.7-0.91 13.5-0., 41 -11.4-0.57 64.1-0.92 09.0-1.34 Labile form of hypertension

22.7-0, b4; - 20.3-0.78

14.0-0.6212.6-0.72

66.2-0.9656.8-1.42

Stable form of hypertension

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