RU2318434C2 - Method for evaluating functional cardiac state in adults - Google Patents

Abstract

FIELD: medicine, cardiology.

SUBSTANCE: it is necessary to register and measure temporary values of cardiac cycle structure in the state of rest including the duration of cardiac cycle and diastole. Moreover, one should additionally register and measure the duration of isometric relaxation phase and quick filling phase, then one should detect intradiastolic value at the duration of cardiac cycle ranged 0.66-1.013 sec by the following formula:

where IDV - intradiastolic value (%); Ir - the duration of isometric relaxation phase (sec); Qf - the duration of quick filling phase (sec); Do - the duration of diastole (sec). When IDV corresponds to 26.6-36.6% one should state upon functional cardiac state to be normal response. The innovation enables to diagnose initial stages of the decrease of functional cardiac state, simplify the procedure of evaluating human functional heart.

EFFECT: higher accuracy of evaluation.

1 dwg, 4 ex, 2 tbl

Description

The invention relates to medicine, namely to functional diagnostics in cardiology and therapy, and can be used in experimental, clinical, and sports medicine to evaluate a mature functional state of a heart and heart reactions to various physiological, pathological, and pharmacological effects.

The classic method of polycardiography is known. Assessment of the phase structure of systole of the left ventricle is carried out according to Blumberger in the modification of Karpman V.L.

The determination of the duration of the time intervals of the phases and periods of the cardiac cycle (SC) is made using a polycardiogram (PCG), including an electrocardiogram (ECG), a phonocardiogram (FCG) and a sphygmogram of the carotid artery (SG) (Karpman VL "Phase analysis of cardiac activity.” - M .: Medicine, 1965, p.275).

The disadvantage of this method is that using the PKG method it is possible to determine only the duration of the phases of the systole of the cardiac cycle and diastole in general and it is impossible to determine the duration of the phases of diastole, such as: protodiastolic interval (Pr); isometric relaxation phase (IR); rapid accumulation phase (BN); slow filling phase (MH); atrial systole (SP) phase.

This reduces the ability to diagnose the functional state of the heart, since it is during the diastole that the processes of relaxation of the heart muscle, filling the ventricle with blood, releasing the myocardium from the metabolic product, synthesis of energy reserves for the upcoming reduction, etc.

There is also a method for determining the functional state of the myocardium of the left ventricle of the heart by measuring the blood volume of the heart by the duration of the phases of fast and slow filling, isometric relaxation of the left ventricle by the duration of the atrial systole, when the volume of blood entering the left ventricle of the heart during the fast filling phase is determined by calculation - the amount of blood entering the left ventricle of the heart during the slow filling phase, as well as the amount of blood entering the left ventricle of the heart during syst atrial fibrillation, by the difference between the volume of filling the left ventricle of the heart into diastole, taken as 100, and the sum of the volumes of blood entering the left ventricle in the phases of fast and slow filling, and the functional state of the myocardium of the left ventricle of the heart is determined by the ratio of calculated volumes (USSR Author's Certificate No. 831105, АВВ 5/02. Publ. 23.05.81. Bull. No. 19).

However, this method does not accurately determine the functional state of the myocardium of the left ventricle of the heart, because it calculates diastolic blood volumes according to indirect, calculated, indicators and does not take into account the dependence of the duration of diastole and its constituent phases on the duration of the cardiac cycle.

Closest to the proposed in its technical essence is a method for assessing the functional state of the heart, which consists in recording, measuring the temporal parameters of the structure of the heart cycle, including heart rate (HR), duration of the heart cycle (SC), diastole (D _o ), total systole ( C _o ), electrical (C _e ), mechanical (C _m ), voltage period (T) with asynchronous phase (A _c ) and isometric (I _c ) reduction, the expulsion period (PI), and phase analysis of these indicators in humans sp old and old at rest.

Phase analysis determines the percentage of the ratio of diastole and systole in the cardiac cycle and all time intervals of the cardiac cycle relative to the duration of the diastole. Determine the percentage of deviations from the optimal normative characteristics, taking as the norm the number of heart contractions (HR) = 50-60 rpm / min, the magnitude of which state the functional state of the heart (Patent RF №2123801, А61В 5/02. Publ. 27.12.98. Bull. No. 36).

The disadvantage of this method is the inability to determine the duration of the phases of diastole (PR, IR, BN, MN, SP) in the chronostructure of the cardiac cycle, which reduces the diagnostic capabilities, reduces the accuracy and informativeness of the method for assessing the functional state of the heart.

The problem to which the invention is directed is to increase the accuracy and simplify the assessment of the method of the functional state of the heart at rest in a person of mature age.

The specified technical problem is solved in that in the method for assessing the functional state of the heart, which consists in recording, measuring the temporal parameters of the structure of the cardiac cycle at rest, including the duration of the cardiac cycle (SC), diastole (DO), an isometric relaxation phase is additionally recorded and measured ( IR) and phases of fast filling (BN). Then determine when the duration of the cardiac cycle equal to 0.80-1.01 sec., Intradiastolic indicator (VDP) by the formula:

where VDP - intradiastolic indicator (%);

IR - the duration of the isometric relaxation phase (s);

BN - duration of the quick filling phase (s);

DO - the duration of diastole (s),

and when the values of the VDP = 26.6 ÷ 36.6% are observed, the functional state of the heart is ascertained as normal response.

The determination of the values of the intradiastolic indicator (VDP) is based on the laws of rhythmochronotropic, rhythminotropic, chromoinotropic, and cardiac functions. VDP characterizes the intradiastolic temporal structure of the cardiac cycle, thereby being a valuable parameter in a comparative analysis of changes in the state of central blood circulation.

The term intradiastolic indicator (VDP) was introduced by the authors of the invention by analogy with the term "intrasystolic indicator of the heart (VSP)", introduced by Karpman V.L. in the book "Phase analysis of cardiac activity." - M .: Medicine, 1965, p.275.

It should be noted that the duration of the isometric relaxation phase characterizes the process of relaxation of the heart muscle and largely determines the preparation for high-grade systole, providing effective circulation.

During the fast filling phase, up to 80% of the blood enters the left ventricle of the heart, and, therefore, the formation of the systolic blood volume and, ultimately, ensuring effective blood circulation depend on the duration of the fast filling phase.

And the determination of the intradiastolic indicator (VDP) with a duration of the cardiac cycle of 0.80-1.01 s is based on the patterns of rhythmochronotropic function of the heart. The essence of this pattern is the dependence of the duration of the phases and periods of the heartbeat on the rhythm of the heart. However, this dependence is observed only when the optimal level of the functional state of the heart is noted. When this level decreases, there is a mismatch in the intracyclic organization of cardiac activity. It is the mismatch of intra-cycle cardiac activity that is the initial sign of the occurrence of heart disease.

Measuring the duration of the isometric relaxation phase increases the accuracy of determining the level of the functional state of the heart due to the possibility of taking into account the relaxation time of the heart muscle and the relaxation-contraction processes of the heart cycle.

And measuring the duration of the fast filling phase also improves the accuracy of assessing the functional state of the heart by taking into account the time of filling the left ventricle with blood and obtaining information about the intracyclic organization of cardiac activity.

The determination of the intradiastolic indicator simplifies the procedure for assessing the functional state of the heart by taking into account changes in the duration of the diastolic phases of isometric relaxation, rapid filling, and the diastole as a whole.

And the determination of the values of the SDP with a duration of the cardiac cycle of 0.80-1.01 s and, as a rule, being the norm for a person of mature age, also increases the accuracy of assessing the functional state of the heart (Table 1).

In table 1, the data set out under serial number 1 are given from the source: V. Zubkov. "The phase structure of the heart of athletes and non-athletes." - "The heart and motor activity of a person." Saratov, 1971, S.16-24 .; under serial numbers 2-7 are given from the source: Krugly M.M. "Seismocardiography". - "Sports cardiology. New research methods." Saratov, 1980, S.13-48 .; under serial number 8 is given from the source: Yuzbashev Z.YU. "Seismocardiographic diagnosis of acquired heart defects." - Saratov, 1989 .-- 126 p .; numbered 9-13 is given from the source: Gurgenyan S.V. and others. "Diastolic relaxation and blood supply to the left ventricle in patients with hypertension." - Cardiology, 1988, No. 1, S.45-49.

Various methods are used for phase analysis of systole and diastole of the cardiac cycle, such as sounding of cardiac cavities, electrocardiography (ECI), kinetocardiography (CCG), seismocardiography (CCG), etc. Registration and measurement of the duration of the cardiac cycle, diastole, the isometric relaxation phase (IR) and the fast filling phase (BN) are carried out by any known method (method) of the phase analysis of the cardiac cycle (Table 2). As can be seen from table 2, the magnitude of the duration of the phases obtained by various methods practically coincide (Karpman V.L. Heart and Sport. - M .: Medicine, 1968, Ch. 2, P. 48; Buyanov ES Monitoring of contractile function hearts for the annual production cycle of agricultural machine operators. - Occupational medicine and industrial ecology, 2003, No. 11, S.55-57).

The method is implemented as follows.

The subjects at rest using one of the methods (sensing, ECI, CCG, SKG, etc.) record and measure the duration of SC, DO, IR and MD.

When using, for example, the method of seismocardiography, an assessment of the functional state of the heart is carried out as follows.

Electrodes for recording an electrocardiogram and a sensor for recording a seismocardiogram are applied to the body of the subject. Moreover, the sensor is applied to the chest in the region of the greatest pulsations of the heart (usually to the left of the sternum in the 5th intercostal space). The ECG and SKG are recorded on a chart tape of a two-channel technical device such as an electrocardiograph. Recording of ECG and SKG on a chart tape is performed synchronously (drawing).

The indicators recorded on the chart strip measure the duration of the cardiac cycle, diastole, isometric contraction phases and rapid filling.

Determine the VDP according to the formula and by its size make a conclusion about the functional state of the heart.

Our own studies have shown that the values of VDI in individuals with different functional conditions of the heart range from 26.6 to 40.0%, with an optimal value of VDV equal to 26.6-36.6%, which characterizes normal response.

As an example of a specific implementation of the method, the following observations are summarized in table 1.

Example 1 (see paragraph 1). Athletes. Age 18-30 years. Qualification - candidates for masters and masters of sports. Good athletic shape, excellent health indicators. VDP = 26.6%.

Example 2 (see paragraphs 6-8). Almost healthy people. Age 25-45 years, not presenting complaints, performing workloads not related to harmful working conditions. Good health indicators. VDP = 33.6 ÷ 34.9%.

Example 3 (see clause 9). Agricultural machinery. Age 25-50 years. Workloads associated with harmful working conditions. Dispensary group. The state of health is satisfactory. VDP = 37.3%.

Example 4 (see section 13). Patients with hypertension of the II stage B, hypokinetic type of blood circulation. Age 25-55 years. Dispensary group. The state of health is poor. VDP = 40.0%.

Using the proposed method for assessing the functional state of the heart allows you to:

1. Diagnose the initial stages of a decrease in the functional state of the heart.

2. To increase the accuracy and simplify the procedure for assessing the functional heart of a person at the stages of preventive medical examinations, diagnosis and treatment of diseases, and measures for the rehabilitation of patients.

3. To study the features of the processes of cardiohemodynamics that occur during the diastole period, which is currently the least studied and is the weakest link in human medicine (see Belenkov Yu.N., Ovchinnikov A.G. Should we treat diastolic heart failure in the same way as systolic? - Heart failure, 2004, No. 4, S.116-121).

4. Automate the procedure for using the method, which is especially important during examinations with various functional tests when using dosed physical activity, the effects of drugs and medical procedures.

Table 1 The values of the intradiastolic indicator in people of mature age with different levels of the functional state of the left ventricular myocardium №№ pp Indicators
Examined persons The duration of the heart cycle (s) SC Diastole Duration (s) To The duration of the isometric relaxation phase (s) Ir Duration of fast filling (s) Bn The value of the intradiastolic index% VDP one Athletes 18-3 0 years old 1.013 0.633 0,065 0.104 26.6 2 Athletes 30-40 years old 1.010 0.612 0.051 0.116 27.3 3 Athletes 40-50 years old 0.898 0.514 0.056 0.108 31.9 four Almost healthy people 18-30 years old 0.881 0.530 0,050 0,097 27.7 5 Almost healthy people 30-40 years old 0.867 0.507 0,067 0.117 36,2 6 Almost healthy people 35-65 years old 1.010 0.520 0.056 0.117 33,2 7 Almost healthy people 25-45 years old 0.840 0.464 0,062 0,100 34.9 8 Almost healthy people 25-45 years old 0.810 0.482 0,090 0,072 33.6 9 Agricultural machine operators (harmful working conditions) 0.780 0.530 0,060 0,085 37.3 10 Patients with hypertension IIA stage (normokinetic type of blood circulation) 0.730 0.460 0,100 0,067 36.3 eleven Patients with hypertension IIA stage (hypokinetic type of blood circulation) 0.730 0.447 0.107 0,062 37.8 12 Stage IIB hypertensive patients (normokinetic type of blood circulation) 0.770 0.457 0,110 0,064 38.1 13 Stage IIB hypertensive patients (hypokinetic type of blood circulation) 0.660 0.435 0.114 0,060 40,0

table 2 The duration of the phases of the cardiac cycle obtained by the methods of polycardiography (PCG), sounding, electrocardiography (ECI), kinetocardiography (CCG) and seismocardiography (SKG) №№ pp Research method Systole Phase (sec.) Diastole Phase (sec.) Asynchronous reduction Isometric reduction Exile period Protodiastole Isometric relaxation Quick fill Slow filling Atrial systole one Polycardiography 0,053 0,033 0.262 - - - - - 2 Sounding - - - 0.04 0.08 0.11 0.19 0.11 3 Electrocography - - - 0,041 0,083 0,091 0.259 0,096 four Kinetocardiography 0.05 0.04 0.30 0,03 - 0.13 0.43 0.06 5 Seismocardiography 0,064 0,041 0.234 0.04 0.058 0.106 0.187 0,091

Claims (1)

A method for assessing the functional state of the heart in a person of adulthood, which consists in recording and measuring the temporal parameters of the structure of the cardiac cycle at rest, including the duration of the cardiac cycle and diastole, characterized in that it further records and measures the duration of the isometric relaxation phase and the fast filling phase, then determine with a duration of the heart cycle equal to 0.66-1.013 s, the intradiastolic indicator according to the formula

where VDP - intradiastolic indicator,%; Ir is the duration of the isometric relaxation phase, s; Bn - the duration of the quick filling phase, s; To - the duration of diastole, s, and when the values of the VDP = 26.6-36.6% correspond, the functional state of the heart is ascertained as normal response.