SU1142116A1 - Method of determining the speed of pulse wave in aorta - Google Patents

Abstract

The method of determining the speed of propagation of the pulse wave in the aorta by simultaneous recording of carotid and femoral sphygmograms, measuring the distance and time of passage of the wave between the registration points, followed by the calculation of the velocity of the wave in the descending aorta, is different because it is a problem with a plan that aims to create a velocity pattern in the descending aorta, the aim is to start a pattern, and the aim is to create a speed pattern in the descending aorta. , in addition, an electrocardiogram (ECG), phonogram and voltage period of the left ventricle are recorded, and the time of passage of the wave is found from the difference between the voltage period of the left stomach and and an interval from a Q wave of an electrocardiogram to the beginning of anacrotic femoral sphygmogram.

Description

The invention relates to medicine, in particular to a functional diagnosis of the condition of the aorta.

A known method of determining the propagation velocity of a pulse wave in the aorta by simultaneously recording the carotid and femoral sphygmograms, measuring the distance and time of passage of the wave between the registration points, followed by calculating the wave velocity in the descending aorta flj.

However, this accuracy in it when calculating the elasticity of the carotid artery is equal to the elasticity of the aorta, and the calculation is carried out. “Only for the descending part of the aorta.

The aim of the invention is to improve the accuracy of speed measurement.

This goal is achieved by the fact that according to the method for determining the propagation velocity of the pulse wave in the aorta by simultaneously recording the carotid and femoral sphygmograms, measuring the distance and wave propagation time between the registration points, followed by calculating the wave velocity in the descending aorta, an electrocardiogram (ECG), phonocardiogram and the period of tension of the left ventricle, and the transit time of the wave is found by the difference between the period of tension of the left ventricle and the interval from the tooth 'ECG before the start of the anacrotic femoral sphygmogram.

The method is as follows.

The researcher is placed in a horizontal position and with the help of a centimeter tape measure the lengths of the projection onto the body of the entire aorta and its separately ascending and descending segments.

The length of the entire aorta (S _q ) is determined between the points from the point of attachment of the W rib to the sternum on the left (sternum notch - navel) to the place of application of the sensor on the femoral artery. The length of the descending aorta (S _H ) is determined between the notch of the sternum (corresponds to the aortic arch at the point of departure of the carotid artery) through the navel to the place of application of the sensor on the femoral artery, decreasing it by the distance between the notch of the sternum and the place of application of the sensor on the carotid artery. The length of the ascending aorta (S ₆ ) is determined by the difference of the two previous values (S _a - S _H ).

Then, the electrodes of the EC-cardiograph, the microphone of the phonocardiograph, the pulse sensors of the sphygmograph are attached to the patient at the appropriate points and connected to a multichannel recording device for 4 signals: ECG 4, FCG 3, Sf.k.2, Sf.b.1 (see drawing). For example, they use a five-channel EC-brand ECG cardiograph 5-01 `` Orion ''. Signals are recorded when the breath is held in an average position between inspiration and expiration, and at a tape drive speed of 50 mm / s.

The obtained curves calculate the intervals T and Q ECG-Sph.b. Subtracting the former from the last value, we find the propagation time of the pulse wave (VLW) of the entire aorta (t _a ). Dividing S _a by t _a , determine C _a . Further, according to the value of the delay, Sf.b. from sf. to. determine the VRPV of the descending aorta (t _H ). Dividing ETs by t _H , find C _n . According to the difference of the two previous time values (t _a - t _M ), the VRPV of the ascending aorta is found (t _e ), Dividing S _g by t _B , _s find C, ₈ . Finally, with respect to the ratio, a coefficient is calculated, with the help of which ¹¹ judges of the primary lesion of the descending or ascending aorta.

Example. The aorta of a healthy man A., 37 years old, was examined (see drawing). Measurement of indicators using advanced techniques gave the following results:

VNIIIPI Order 591/6

S _a = 50 cm; t _o = 0.07 s; S _H = 40 cm; = 0.05 s; Sfj = 10 cm; t _B = 0.02 s; C _Q = 50 : 0.07 = 7.1 m / s. C _n = 40 : 0.05 = 8.0 m / s. C _& = 10 : 0.02 = 5.0 m / s.

The obtained PWV values approximately corresponded to the existing standards for persons of a given age and, by the way, testified to the elasticity of the walls of all its component segments.

normal aorta and.

Ratio Ratio - ό a

0.62. This value of the coefficient was within normal fluctuations and reflected the relationships that exist between the elasticity of the walls of the ascending and descending sections of the aorta in healthy individuals.

Thus, the invention allows with high accuracy to determine PSA in the aorta and therefore has additional diagnostic capabilities for atherosclerosis.

Circulation 722 Subscription

Branch of the PPP Patent, Uzhgorod, Project 4,

Claims (1)

THE METHOD FOR DETERMINING THE PULSE WAVE SPREAD SPEED IN THE AORTA by simultaneously recording the carotid and femoral sphygmograms, measuring the distance and wave propagation time between the registration points, followed by calculating the wave velocity in the descending aorta, is different in that, in order to increase the accuracy of measuring the speed additionally record the electrocardiogram (ECG), the phonogram and the voltage period of the left ventricle, and the wave propagation time is found by the difference in the voltage period of the left ventricle and int the distance from the Q-wave of the ECG to the beginning of the anacrotic femoral sphygmogram. the method has a low connection with the fact that in speed