RU2398559C1 - Method of optimisation of cardiovascular system functional reactivity in case of arterial hypertension in elderly and senile age - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely to cardiology, and can be used for optimisation of cardiovascular system (CVS) functional reactivity. Method is realised in the following way: evaluation of state of CVS functional reactivity is carried out under psychoemotional load, for which purpose systolic, diastolic, mean dynamic (APm.dyn.) pressure, heart rate (HR) are registered. On the basis of these data index of functional reactivity (IFR) before and after load is determined by formula: IFR=(APm.dyn.xHR)/100 (conv.units). If IFR value increase is more than 20 conv.units, administered is combination of daily swimming in swimming pool for not less than 15 minutes per day, lisinopril 10 mg in the morning 1 time and amlodipine 5 mg in the morning 1 time for not less than 3 months.

EFFECT: method allows to normalise CVS functional reactivity due to potentiation of their medicinal action in patients of elderly and senile age with arterial hypertension during three months of treatment.

2 ex

Description

The invention relates to medicine, in the field of cardiology, and can be used in therapeutic departments of clinics and hospitals. Analogues of a method for normalizing the functional reactivity of the cardiovascular system in arterial hypertension (AH) in the elderly and senile do not exist.

The aim of the invention is to increase the efficiency of correction of the functional reactivity of the cardiovascular system in hypertension in the elderly and senile.

The essence of the proposed method for the correction of the functional activity of the cardiovascular system is to increase the tolerance of hypertensive patients in old and old age to psychoemotional stress and increase the functional reactivity of the cardiovascular system when they perform a dosed psychoemotional load and reduce the risk of cardiovascular complications during emotional stress, evaluated after conducting a dosed psychoemotional load with a constantly increasing speed over e 18-20 minutes with every minute registration of central hemodynamic parameters: systolic blood pressure (BPA), diastolic blood pressure (BPD), average dynamic blood pressure (BPA) and heart rate (HR), determine the value of the functional reactivity index (PFR) ), which is a product of the average dynamic BP at heart rate, calculate the relative increment of the PFR value when the load is performed compared to the value at rest and the type of func the national reactivity of the cardiovascular system: with a PFR value of more than 20 conventional units reactivity is assessed as hyperfunctional, with a PFR value of less than 10 conventional units the response to the load is assessed as hypofunctional and with PFR values from 10 to 20 conventional units type of functional reactivity is assessed as normal.

The time of the psycho-emotional load is no more than 20 minutes. To normalize the index of functional reactivity in patients with hypertension in the elderly and senile, a combination of daily swimming in the pool, lisinopril and amlodipine for at least 3 months is used.

The inventive method is as follows. The value of the PFR indicator is determined by O. Lebedeva, S. A. Radzievsky, S. A. Bugaev A method for assessing the state of functional reactivity of the cardiovascular system RU 2207044. The patient is seated in front of a monitor screen. A cuff is placed on the patient’s left shoulder to measure systolic blood pressure, diastolic blood pressure, dynamic average blood pressure and heart rate before and during exercise. The patient is offered two sets of 4 letters: ANEU and RLOG, from which he must choose one to remember. After registering the hemodynamic parameters for 3 minutes and memorizing (30 s) the selected set of letters, the psychoemotional load begins, consisting in the fact that the test person presses the key marks the disparate letters from the selected set as the square frame moves randomly on the monitor located at random sequence of letters of the alphabet. The speed of advancement of the frame along the rows of letters during the sampling process increases from 3 letters in 1 s at the beginning of the load to 6 letters in 1 s, starting from 6 min of the load, and this ensures the patient’s gradual development. Errors in marking letters from the selected set are accompanied by sound signals, according to which the subject can navigate the correct execution of the load and try to adjust its performance. After the end of the load, the average values of ADs, ADd, and ADsr are calculated. din and heart rate in periods: before the load and during the load. The average dynamic BP is calculated by the formula: BP cf.din = ADd + [0.42 (ADs-ADd)].

Dynamic mean blood pressure is a complex result of all variables of blood pressure. When conducting a test with emotional stress in healthy individuals, the mean dynamic does not change significantly, and heart rate, as a rule, increases. According to studies, an increase in heart rate and blood pressure leads to an increase in myocardial oxygen demand and an increase in its energy expenditure. In conditions of pathology, for example, with hypertension, vessels in a state of spasm are not able to provide the required increased amount of oxygen, as a result of which hypoxia, impaired cerebrovascular circulation can develop, an attack of angina pectoris, etc. can develop.

Based on the data obtained, an indicator of functional reactivity is calculated, which allows one to integratively assess the degree of increase in hemodynamic load on the heart and, accordingly, the risk of developing cardiovascular complications, defined as follows

PFR = (ADdr.din HR) * / 100 (conventional units).

The increment of PFR values during the transition from rest to load fulfillment is determined by the indicator:

PFR = PFR2-PFR1,

where PFR is the difference between the PFR values before and under load, PFR1 is the average value of the indicator before the load, PFR2 is the average value of the indicator under load. According to the value of the relative increment of PFR values, the type of functional reactivity of the cardiovascular system is evaluated: if the value is *, then it is divided by 100 to obtain arbitrary units (conventional units are two-digit numbers).

In a second study in the dynamics of treatment, the patient is given to memorize a different set of letters in order to prevent addiction.

When the values of the increment after dosed psychoemotional load PFR from 10 to 20 srvc. functional type of reactivity is assessed as normal. When PFR load more than 20 srvc. A patient with hypertension in the elderly and senile must be prescribed for at least 3 months a combination of daily swimming in the pool for at least 15 minutes a day, lisinopril 10 mg in the morning 1 time and amlodipine 5 mg in the morning 1 time per day.

Timely and effective PFR correction in patients with hypertension in the elderly and senile will allow them to quickly normalize the functional reactivity of the cardiovascular system, which will shorten the hospitalization period for these patients, prevent strokes and heart attacks, reduce the number of outpatients with disabilities and reduce mortality among patients AH of elderly and senile age.

Example 1. Patient C. 66 years old, suffering from AH P degree, stage II, H0 for 12 years was examined. In the study of hemodynamics in the initial state before the psychoemotional load, the blood pressure was 142 mmHg, blood pressure was 92 mmHg, blood pressure was 113.0 mmHg and heart rate was 84 beats. in 1 min. PFR before the beginning of the psychoemotional load was 94.9 conv.ed. During the psychoemotional load, blood pressure increased to 166 mmHg, blood pressure - 105 mmHg, blood pressure to 130.6 mmHg, heart rate - up to 96 beats. in 1 min, the PFR value increased to 125.3 conventional units, that is, the increment of PFR at the load or, what is the same - PFR, amounted to 30.4 conventional units. (from 94.9 conventional units to 125.3 conventional units), which can be regarded as a manifestation of hyperfunction of the cardiovascular system. The patient was prescribed a combination of daily swimming in the pool for at least 15 minutes a day, lisinopril 10 mg in the morning and amlodipine 5 mg in the morning. After 3 months of treatment, the value of PFR decreased before the start of the load compared with the same before treatment: BPA - up to 125 mm Hg, BPA - up to 80 mm Hg, BPA.din - up to 98.9 mm Hg. , Heart rate - up to 72 beats. in 1 min, PFR - up to 71.2 conv. units When the load was performed, a decrease compared to the state before treatment, the degree of increase in blood pressure values - up to 136 mm Hg, blood pressure - up to 90 mm Hg, blood pressure - up to 109.3 mm Hg, heart rate - up to 78 beats in 1 min, PFR - up to 85.3 conventional units, that is, an increase in the values of PFR, or PFR, by 14.1 conventional units was noted. (before treatment - by 30.4 conventional units), which may indicate an increase in the tolerance of the cardiovascular system to psychoemotional stress, a decrease in hyperfunction of the cardiovascular system, and, consequently, an increase in cardiac activity.

Example 2. Patient K., aged 79, suffering from AH of the II degree, II stage, HI for 26 years, was examined. In the study of hemodynamics in the initial state before the psychoemotional load, the blood pressure was equal to 146 mm Hg, blood pressure was 92 mm Hg, blood pressure was 114.7 mm Hg and heart rate was 74 beats. in 1 min. PFR before the beginning of the psychoemotional load was 84.8 srvc. During the psychoemotional load, blood pressure increased to 166 mmHg, blood pressure - 102 mmHg, blood pressure to 128.8 mmHg, heart rate - up to 84 beats. in 1 min, the PFR value increased to 108.2 conventional units, that is, the increment of PFR at the load or, what is the same - PFR, amounted to 23.4 conventional units. (from 84.8 conventional units to 108.2 conventional units), which can be regarded as a manifestation of hyperfunction of the cardiovascular system. The patient was prescribed a combination of daily swimming in the pool for at least 15 minutes a day, lisinopril 10 mg in the morning and amlodipine 5 mg in the morning. After 3 months of treatment, the value of PFR decreased before the start of the load compared with the same before treatment: BPA - up to 124 mm Hg, BPA - up to 78 mm Hg, BPA.din - up to 97.3 mm Hg. , Heart rate - up to 64 beats. in min, PFR - up to 62.3 conventional units When performing the load, a decrease compared with the state before treatment, the degree of increase in blood pressure values - up to 143 mm Hg, blood pressure - up to 86 mm Hg, blood pressure - up to 109.9 mm Hg, heart rate - up to 72 beats in 1 min, PFR - up to 79.2 conventional units, that is, an increase in the values of PFR, or PFR, by 16.9 conventional units was noted. (before treatment - by 23.4 conventional units), which may indicate an increase in the tolerance of the cardiovascular system to psychoemotional stress, a decrease in hyperfunction of the cardiovascular system and, consequently, an increase in cardiac activity.

As a result of the application of the proposed method for correcting the state of the functional reactivity of the cardiovascular system in patients with hypertension in the elderly and senile, normalization of the functional reactivity of the cardiovascular system to a dosed psychoemotional load is achieved, which allows using the method for normalizing the tolerance of patients with hypertension in the elderly and senile to psychoemotional loads, reduce the degree of hemodynamic load when exposed to stress, reducing the risk of developing During psychoemotional loads of adverse vascular reactions (angina pectoris, myocardial infarction, cerebrovascular accident, etc.).

Claims (1)

A method of normalizing the functional reactivity of the cardiovascular system (CVS) for arterial hypertension in the elderly and senile, including assessing the state of the functional reactivity of CVS during a psychoemotional load, for which systolic, diastolic, mean dynamic (BP cf.din) pressure, heart rate ( HR) based on these data, determine the functional reactivity index (PFR) before and after the load, using the formula: PFR = (ADsr.din × HR) / 100 (conventional units), and with an increment of Ia RPF over 20 conv prescribe a combination of daily swimming in the pool for at least 15 minutes a day, lisinopril 10 mg in the morning 1 time and amlodipine 5 mg in the morning 1 time for at least 3 months.