RU2725849C1 - Method for determining biological age of males - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: invention refers to medicine, namely to functional diagnostics, therapy, cardiology, gerontology, and can be used to determine biological age in males from 18 to 99 years old. An ultrasonic examination of the heart is performed and the following is determined: a ratio of the peak velocity of early-diastolic filling of the left ventricle to a peak velocity of late-diastolic filling of the left ventricle (E/A), index of end-systolic myocardial stress (ESMS), and by formula calculating biological age of male BA=0.32*CA-7.9*(E/A)+0.09*ESMS, where BA is biological age, years; CA – chronological age, years; E/A is a ratio of peak velocity of early-diastolic filling of left ventricle to peak velocity of late-diastolic filling of left ventricle; ESMS is a measure of end-systolic myocardial stress.EFFECT: method enables increasing the objectivity of determining the biological age of males and the accuracy of stratifying the risk of cardiovascular complications.1 cl, 3 ex

Description

The invention relates to medicine, it is possible to use in areas such as therapy, cardiology, functional diagnostics, ultrasound diagnostics, gerontology, general medical practice.

The efforts of the World Health Organization, as well as the national health system in the Russian Federation, are aimed at improving the prognosis and awareness of patients with cardiovascular diseases, increasing their adherence to treatment in order to achieve and reducing the incidence of cardiovascular complications. Some of the reasons for the insufficient effectiveness of measures to prevent cardiovascular complications are the shortcomings of modern risk stratification scales for the development of complications, in which the risk can be underestimated (leads to ineffective treatment tactics adopted by the doctor) or not understood (leads to patient ignoring recommendations). The SCORE scale most often used in clinical practice for assessing the risk of fatal cardiovascular complications is criticized due to the fact that the patient’s passport (calendar) age is based on it. According to experts from the European Cardiology Society, the value of passport age is a weak substitute for the patient’s biological age [2018 ESC / ESH Guidelines for the management of arterial hypertension // European Heart Journal. 2018. Vol. 39 (33). P. 3021-3104. Doi 10.1093 / eurheartj / ehy339].

From the existing level there is a known method for determining biological age proposed by L. Belozerova [Evaluation of biological age by echocardiography. The successes of gerontology. Vol. 19, 2006, p. 90-92]. Echocardiography parameters were taken into account: aortic orifice diameter (1, cm), left atrium (3, cm), interventricular septum (12, cm), posterior wall of the left ventricle (13, cm), right ventricle (14, cm), etc. .. As can be seen, the focus of the proposed method is exclusively morphometric indicators, and the method itself reflects only structural and geometric changes. However, physiological involutive changes include sclero-degenerative processes leading to impaired diastolic function, myocardial tension of the left heart chambers [Akasheva D.U., Plohova E.V., Strazhesko I.D., Dudinskaya E.N., Tkacheva O. N. Heart and age (part II): clinical manifestations of aging. Cardiovascular therapy and prevention. 2013; 4: 86-90].

The disadvantages of the proposed method: the method does not reflect the functional changes in the left chambers of the heart, namely the systolic and diastolic function of the left ventricle.

The closest analogue of the claimed invention is the method described by Vaganova T.V., Spirina K.A., Zubarev M.A. (RF patent 2518347, 2014) General features with the claimed method is the ultrasound examination of the heart. The method identifies the structural parameters of the heart, namely the diameter of the aortic orifice (mm), the size of the left atrium (mm) and the thickness of the interventricular septum (mm). The authors focus on exclusively morphometric indicators of the left chambers of the heart.

The disadvantage of the analogue is the lack of accounting for the systolic and diastolic functions of the left chambers of the heart, as an important pathophysiological mechanism of age-related changes in the heart.

The task of the invention is to develop a method for determining the biological age in men, based on ultrasound of the heart.

The technical result is to increase the objectivity of the method for determining the biological age of men by taking into account the indicators of systolic and diastolic functions of the left chambers of the heart.

Determining the biological age in men will improve the patient's adherence to the recommendations of clinicians and timely conduct preventive measures for cardiovascular complications and, thus, improve the prognosis.

The specified result is achieved by determining the indicators of systolic and diastolic functions of the left ventricle according to the results of ultrasound examination of the heart and calculation of biological age.

The method is as follows. The patient on the couch in a horizontal position on the left side with spontaneous breathing from the parasternal and apical (subcostal, epigastric) accesses using a sector sensor, with a frequency of 2 to 5 MHz, assess the myocardium on the Philips HD 15 device (Netherlands) using "B" , "M" of Doppler modes according to the European recommendations for echocardiography (2015). Echocardiographic parameters are included, which are included in the formula of biological age, namely, the indicator of diastolic function of the left ventricle of the heart - the ratio of the peak speed of early diastolic filling of the left ventricle to the peak speed of late diastolic filling of the left ventricle (E / A rate, unit), systolic functions of the left ventricle of the heart - end-systolic myocardial stress (CSMS), (dyn / cm ² ), which characterizes the tension force of the myocardial fibers per unit cross section of the left ventricular wall, which is calculated by the method of R. Devereux [Devereux RB, Savade DD, Sachs H ., Laragh JH Relation of hemodynamic load to left ventricular hypertrophy and performance in hypertension Am.J. Cardiol. 1983. No. 1. P. 171-176].

The biological age in men 18-99 years is calculated by the formula:

BV = 0.32 * PV-7.9 * (E / A) + 0.09 * CSMS,

where BV - biological age, years,

PV - passport age, years,

E / A - an indicator of the ratio of the peak speed of early diastolic filling of the left ventricle to the peak speed of late diastolic filling of the left ventricle, units

CSMS - an indicator of end-systolic myocardial stress, dyne / cm ² .

To determine the rate of aging, the data of individual BV are compared with the proper biological age (DBV), which is calculated using linear regression between the biological age and the individual calendar age.

DBV (men) = 15.245 + (0.696 KB ind),

where DBV - due biological age, years; KB ind - individual calendar (passport) age of the subject, years.

By the value of BV - DBV or the index of BV / DBV, one can judge how much the BV of the subject differs from the population standard, i.e. matches or is ahead of the given survey of their peers.

The normal aging rate (average) corresponds to the population if BV-DBV <0 (or BV / DBV index <1) is the slowed aging rate, while BV-DBV> 0 (or BV / DBV> 1) is accelerated aging [V. Voitenko P., Polyukhov AM Systemic mechanisms of development and aging. - L .: Nauka, 1986 .-- 184 s; Voitenko V.P. Healthy health. Introduction to sanology. K .: Health, 1991, 246 s].

Case Studies

Example 1. A man, 40 years old (PV)

Ultrasound indices: E / A 1.8 units; XMSC 110 dyne / cm ² .

BV = 0.32 * 40-7.9 * 1.8 + 0.09 * 110 = 41.3. (95% confidence interval of biological age 33; 49.5 years)

DBV = 15.245 + (0.696 * 40) = 43.1 years.

BV-DBV = 41.3-43.1 = -1.8, index of BV / DBV = 0.95 <1, i.e. slow aging

Conclusion The biological age is 41.3 years. Slowed down pace of aging.

Example 2. A man of 40 years (PV)

E / A 0.7 units; XMSC 110 dyne / cm ² .

BV = 0.32 * 40-7.9 * 0.7 + 0.09 * 110 = 50.2 years (95% confidence interval of biological age 47.5; 52.6 years)

DBV = 15.245 + (0.696 * 40) = 43.1 years.

BV-DBV = 50.2-43.1 = 7.1, index of BV / DBV = 1.16> 1 i.e. accelerated pace of aging

Conclusion The biological age is 50.2 years. Accelerated pace of aging

Example 3. A man of 40 years (PV)

E / A 0.7 units; XMSC 140 dyne / cm ² .

BV = 0.32 * 40-7.9 * 0.7 + 0.09 * 140 = 52.8 years (95% confidence interval of biological age 50.8; 55.6 years)

DBV = 15.245 + (0.696 * 40) = 43.1 years.

BV-DBV = 52.8 - 43.1 = 9.7, index of BV / DBV = 1.22> 1, i.e. accelerated pace of aging

Conclusion The biological age is 52.8 years. Accelerated pace of aging.

Thus, the use of the proposed method allows more accurately (determination coefficient R ² = 47.5%, indicator of statistical significance p = 0.00001) to determine the biological age of a man, which will improve the patient’s adherence to the recommendations of clinicians and timely preventive measures for the occurrence of cardiovascular complications.

Claims (6)

The method of determining the biological age in men according to the results of ultrasound examination of the heart, characterized in that the study determines the ratio of the peak speed of early diastolic filling of the left ventricle to the peak speed of late diastolic filling of the left ventricle (E / A) and the rate of end-systolic myocardial stress (CSMS) and calculate the biological age according to the formula BV = 0.32 * PV-7.9 * (E / A) + 0.09 * CSMS, where BV - biological age, years, PV - passport age, years, E / A is an indicator of the ratio of the peak speed of early diastolic filling of the left ventricle to the peak speed of late diastolic filling of the left ventricle, CSMS is an indicator of end-systolic myocardial stress.