RU2547805C2 - Method for individual's haemodynamic response (hdr) to postural stress - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to cardiology and physiology. A linear blood flow velocity is measured through an aortic valve before and after the postural stress. The cardiohaemodynamic response under the stress is determined by original formula.

EFFECT: method enables assessing the cardiohaemodynamics objectively by taking into account the linear blood flow when the person being tested changes from one position to another.

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Description

Postural tests associated with changes in body position in space are accompanied by significant changes in the functions of cardiohemodynamics (QHD), among which linear blood flow velocity (LSC) is of particular interest [1, 2].

A known method for the determination of human QGD by echocardiodopplerography (echocardiography) [3]. In accordance with the known method, LSC is studied depending on the hemodynamic pre- and afterload in case of violations of the diastolic function of the left ventricle of the heart.

The disadvantage of this method is that it is designed for patients and does not take into account the effects of postural tests.

A known method for determining the reaction of QGD to a postural test [4]. In accordance with a known method, the heart rate, blood pressure during exercise are investigated.

The disadvantage of this method is that it does not take into account changes in the linear velocity of blood flow.

A known method of determining microcirculation under the influence of postural samples [5]. In accordance with a known method, microcirculation is measured before and after a postural sample.

The disadvantage of this method is that they measure not QGD, but peripheral circulation in the vessels of the skin, and the postural test is examined in the position of the test person sitting without changing the pose.

The proposed method for determining the reaction of QGD to the postural test is characterized in that the linear blood flow velocity before and after the postural test is preliminarily measured, and the QGD reaction is determined by the formula.

The proposed method is as follows.

The test subject sequentially moves from position 1 “standing” to position 2 “lying”.

An ultrasound scanner with a cardiology program and a sensor is used, and the linear velocity of blood flow through the aortic valve is measured in the initial phase of its opening. Measurements are taken from the apical (apical) position along the long axis of the left ventricle of the heart.

Measurements of the linear velocity of blood flow are carried out for 5-7 cardiocycles in the first minute after the subject alternately takes positions 1 and 2.

The test subject in position 1 "standing" measure the linear velocity of blood flow. Then the subject moves to position 2 “lying”. Repeat the measurement of the linear velocity of blood flow. The reaction of QGD to postural tests is determined by the formula.

As can be seen from the table, individual reactions to postural tests differ upon transition from position 1 “standing” to position 2 “lying” on average by 36% (from 17 to 63%).

The magnitude of changes in the linear velocity of blood flow under the influence of a postural test is used as a criterion (sign), on the basis of which the reaction of QGD to exposure is determined.

The study of the reaction of QGD to exposure is carried out according to the formula:

P _QGD = (V ₂ -V ₁ ) / V ₁ · 100,

P _QGD - reaction of QGD to a postural test;

V ₁ - linear blood flow velocity in position 1 "standing", cm / s;

V ₂ - linear blood flow velocity in position 2 "lying", cm / s;

100 - coefficient for data conversion,%.

Information sources.

1. Karpman V.L., Parin V.V. Values of cardiac output, sec. 271-279. Changes in cardiac output in certain physiological conditions, p. 275-280. // In the book. Physiology Guide. Physiology of blood circulation. Physiology of the heart. L .: Nauka, 1980, 598 pp.

2. Karpman V.L., Belotserkovsky ZB, Lyubina B.G. and other Dynamics of blood circulation with minimal physical exertion // Physiol. 1994.V. 20. No. 1, p. 84-87.

3. Schiller N., Osipov M.A. Clinical echocardiography. M., 1993, p. 74-80.

4. Lyukshinov N.M., Solodkov A.S., Shikhverdiev S.N. et al. Activity indicators of central hemodynamics in young athletes according to echocardiography // Coordination of functions in case of urgent and long-term adaptation of an athlete's body to physical activity. Sat scientific labor. L., 1990, p. 53-55.

5. Ananchenko M.N., Chuyan E.N. Skin microcirculation under conditions of functional load in subjects with various typological features under the influence of low-intensity millimeter radiation // Scientific notes of Taurida National University. IN AND. Vernadsky. Series "Biology, Chemistry". Volume 24 (63). 2011. No2. S. 30-49.

Claims (1)

A method for determining a person’s cardiohemodynamics (QGD) reaction to a postural test by echocardiodopplerography (ECHOCG), characterized in that the linear blood flow velocity through the aortic valve is measured before and after the postural test, and the QGD reaction is determined by the formula:
P _QGD = (V ₂ -V ₁ ) / V ₁ · 100,
where R _QGD is the reaction of QGD to the postural test;
V ₁ - linear blood flow velocity in position 1 "standing", cm / s;
V ₂ - linear blood flow velocity in position 2 "lying", cm / s;
100 - coefficient for data conversion,%.