RU2769686C1 - Remedy for correcting increased meteorological and magnetic sensitivity in patients with arterial hypertension - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to the use of fabomotizole in a daily dose of 50 mg for three days before a change in weather conditions to correct increased meteorological and magnetic sensitivity in patients with arterial hypertension against the background of standard antihypertensive therapy.

EFFECT: increase in the therapeutic effect by controlling blood pressure, increasing the level of stress resistance and preventing vascular complications.

1 cl, 2 ex

Description

The invention relates to medicine, namely to cardiology and neurology, and can be used to correct meteosensitivity in patients with arterial hypertension.

The closest analogue of the invention is the use of melatonin as an adaptogen in the treatment of weather-sensitive patients with angina pectoris and arterial hypertension against the background of traditional therapy [patent RU 2428183, 2011]. The authors substantiated the possibility of using melatonin to regulate adaptive processes against the background of basic therapy for arterial hypertension, which makes it possible to reduce the influence of meteorological and geomagnetic activity factors on blood pressure (BP) under the influence of melatonin.

The disadvantage of its use is the development of arterial hypertension (AH) on the part of the cardiovascular system; rarely - angina pectoris, palpitations, hot flashes, slower onset of action. All this leads to an insufficient therapeutic effect of correction of increased meteo- and magnetosensitivity in patients with arterial hypertension.

The objective of the present invention is to increase the effectiveness of complex treatment in patients with AH with meteosensitivity, to maintain a therapeutic effect on a person while achieving a stable correction of his increased meteo- and magnetosensitivity and to reduce the risk of developing vascular complications, to expand the arsenal of means for the prevention and treatment of meteo-magnetosensitivity.

The technical result of using the invention is to increase the therapeutic effect by controlling blood pressure, increasing the level of stress resistance and preventing vascular complications.

The essence of the invention: the use of fabomotizole (Afobazol) at a daily dose of 50 mg for three days before changing weather conditions to correct increased meteo- and magnetosensitivity in patients with hypertension against the background of standard antihypertensive therapy.

To determine the clinical efficacy of treatment with fabomotizol, patients with AH with meteosensitivity were divided into 2 subgroups using the "envelope" method: subgroup IA (n=51) - the main one, received antihypertensive therapy (lisinopril 10 mg and indapamide 2.5 mg 1 time per day ) according to the recommendations of the Russian Society of Cardiology (RSC, 2019) [Chazova I.E., Zhernakova Yu.V. Clinical guidelines. Diagnosis and treatment of arterial hypertension // Systemic hypertension. 2019. No. 16(1)] and additionally fabomotizole - a selective non-benzodiazepine anxiolytic 50 mg per day for three days before weather changes; Subgroup 1B - comparisons (n=51), AH patients with meteosensitivity, received similar antihypertensive therapy with the exception of fabomotizole, and group II (n=98) - AH patients without meteosensitivity received antihypertensive therapy also according to the recommendations - lisinopril 10 mg and indapamide 2, 5 mg once a day (RKO, 2019). Hemodynamic parameters on the background of ongoing treatment in patients with hypertension improved: in subgroup IA, the level of SBP decreased by 21.6%, DBP - by 17.6%; in subgroup 1B - by 10.8% and by 7.2%; in group II - by 12.2% and 17.6%, respectively, in comparison with the initial data.

Before and after the implementation of the correction of increased meteo- and magnetosensitivity in patients with hypertension, the level of blood pressure was determined, stress resistance was studied according to Holmes and Pare. During treatment in subgroup IA, the number of people with high stress resistance increased by 17 (33.3%), in subgroup 1B - by 7 (13.7%) and in group II - by 15 (15.3%) compared with the baseline. data.

In recent years, psychotropic drugs, among which are antidepressants, benzodiazepine tranquilizers, and atypical benzodiazepine tranquilizers, have become of particular importance in the treatment of psychovegetative disorders. The main method of correction of anxiety disorders, along with psychotherapy, is the use of anxiolytic (anti-anxiety) drugs. However, not all of the listed types of therapy lead to a positive result; allergic reactions, addiction, and individual intolerance may occur.

Fabomotizole is a derivative of 2-mercaptobenzimidazole (general formula C ₁₅ H ₂₁ N ₃ O ₂ S, molar mass 307.410 / mol), a selective anxiolytic that does not belong to the class of benzodiazepine receptor agonists, has an anxiolytic effect with an activating component that is not accompanied by hypnosedative effects. The drug has no muscle relaxant properties, a negative effect on memory and attention. With its use, drug dependence is not formed and withdrawal syndrome does not develop. The action of the drug is realized mainly in the form of a combination of anxiolytic and mild stimulating effects.

A pharmacoeconomic analysis was also carried out using the cost-effectiveness analysis method, which allows determining the ratio of the amount spent on the use of drugs to the effect. This indicator was calculated by the formula CER=DC/Ef, where CER - reflects "costs - efficiency"; DC - direct costs of pharmacotherapy; Ef is the effectiveness of therapy. The percentage of individuals who reached the target values of systolic blood pressure was used as a unit of effectiveness. The cost-effectiveness ratio CER (cost-effectiveness ratio) was used to compare two treatment regimens, which characterizes the level of costs per unit of efficiency [Reshetko O.V., Lutsevich K.A. Pharmacoeconomics as a tool of clinical pharmacology for optimizing pharmacotherapy. Bulletin of the Scientific Center for Expertise of Medicinal Applications. 2015; 4:S. 54-57]. The criteria for evaluating the effectiveness of pharmacotherapy were the frequency of emergency calls for hypertensive crisis, the frequency of visits to the doctor, the achievement of the target level of blood pressure, and as "costs" - the cost of drugs. When determining the cost of pharmacotherapy, we used the “single time slice” approach, all prices were taken as of 01.03.2020 from the resource http://www.pharmindex.ru (accessed 01.03.2020). For each group/subgroup formed by us, we calculated the average cost of a 12-month course of antihypertensive therapy, taking into account the frequency of visits to the doctor and calling an ambulance. These studies were analyzed at baseline and one year later. According to the results of the analysis during the observation period, the number of additional visits to the doctor of patients with AH with meteosensitivity in the IA subgroup decreased by 62 (64.6%), in the 1B subgroup - by 22 (27.2%) and in the II subgroup - by 33 (44.6%). 6%); the number of ambulance calls by 13 (25.5%), 4 (7.8%) and 15 (15.6%), respectively.

Meteosensitivity in patients with hypertension was determined by the meteopathic index (MI) B.de Rudder: MI=(n⋅m)/(N⋅M), where n is the period in days for which the anamnesis was collected; m is the total number of clinical symptoms; N-days of adverse weather for the same period; M is the number of symptoms associated with weather changes. Highly reliable weather sensitivity is considered at MI=1.5 and above [Grigoriev K.I., Povazhnaya E.L. The problem of increased meteosensitivity in children and adolescents // Russian Bulletin of Perinatology and Pediatrics. 2018. No. 63(3). S. 84-90]. The study of the dynamics of MI in patients with hypertension showed a significant decrease in subgroup 1A by 5.4 (40.4%), in subgroup 1B by 1.1 (8.7%), compared with the baseline, and in group II of the studied patients AH without meteosensitivity dynamics was not observed and amounted to 0.4. Thus, the results of this analysis indicate that the use of fabomotizole enhances the adaptive capabilities of the organism in patients with AH with meteosensitivity.

The essence of the invention is illustrated by the following clinical examples.

Example 1. Patient B., a store employee, 54 years old, arterial hypertension stage II, degree 2, risk 3 with meteosensitivity. The initial level of stress resistance was 207 points, BP 162/98 mm Hg, MI was 8.7. For the first time, an increase in blood pressure was noted two years ago after a stressful situation. Complaints of headache, increased blood pressure more often on the eve of changes in weather conditions, fatigue, increased anxiety and irritability.

Within three days before the expected change in weather conditions (according to the server of the Bashhydrometcenter website, www.meteorb.ru), pharmacotherapy was carried out - oral administration of fabomotizole at a dose of 50 mg per day against the background of antihypertensive therapy (lisinopril 10 mg and indapamide 2, 5 mg 1 time per day). After the first course, after 1 month of correction, positive dynamics of stress resistance was noted: the level of stress resistance was 165 points, blood pressure was 130/85 mm Hg, MI decreased to 4.1.

The results of re-testing after 3 months confirmed the positive dynamics of the achieved result: the level of stress resistance was 157 points, blood pressure was 125/80 mm Hg. and MI-3.8.

Example 2. Patient I., works as an accountant, 49 years old, arterial hypertension stage II, degree 2, risk 3 with meteosensitivity. The initial level of stress resistance was 218 points, BP 170/100 mm Hg, MI 8.4. The diagnosis of AH was established five years ago during a regular medical examination. Complaints of headache, increased blood pressure on the eve of changes in weather conditions, weakness.

Within three days before the expected change in weather conditions (according to the server of the site "Bashhydrometcenter", www.meteorb.ru), pharmacotherapy was carried out - the drug fabomotizole orally at a dose of 50 mg per day against antihypertensive therapy (lisinopril 10 mg and indapamide 2.5 mg 1 time per day). After 1 month, the level of stress resistance increased and amounted to 171 points, BP 135/80 mm Hg, MI-4.7.

The results of retesting after 3 months confirmed the stability of the achieved result: the level of stress resistance was 164 points, BP 130/75 mm Hg, MI - 3.95.

Thus, the correction of fabomotizol 50 mg per day 3 days before changes in weather conditions compared with the prototype ensures the normalization of blood pressure, a decrease in meteo- and magnetosensitivity, and increases stress resistance.

The advantages of using the proposed tool are availability, clinical efficacy, good compatibility with other types of rehabilitation (spa treatment, physiotherapy, acupuncture), lack of addiction and withdrawal syndrome.

The proposed invention can be used at the outpatient stage for the prevention of hypertensive crises in AH patients with meteosensitivity, the restoration of the psycho-emotional state of a person suffering from a violation of adaptation to changes in weather conditions.

Claims (1)

The use of fabomotizole at a daily dose of 50 mg for three days before weather changes to correct increased meteo- and magnetosensitivity in patients with arterial hypertension against the background of standard antihypertensive therapy.