RU2094015C1 - Method of rapidly estimating normal morphofunctional state of myocardium - Google Patents

Abstract

FIELD: forensic medicine and experimental cardiology. SUBSTANCE: before and after opening heart ventricle cavity, intermyocardial pressure, respectively, in 12 and 24 points under epicardium and under endocardium is measured. Ratio of tissue (intermiocardial) pressure in subepicardial layer to that in subendocardial layer of heart ventricle myocardium is found. When its value lies within the range from 0.91 to 0.95, morphofunctional state of myocardium is stated normal. EFFECT: simplified estimation procedure.

Description

 The invention relates to medicine, in particular to pathological anatomy, forensic medicine, experimental cardiology, etc. and can be used to determine and rapid assessment of the normal morphological and functional state of the ventricular myocardial structures.

 There are several groups of methods for assessing the normal morphofunctional state of the structures of the myocardium of the ventricles of the heart in humans and experimental animals.

 So, histological examination allows you to get a detailed and fairly complete picture of the morphofunctional state of the walls of the ventricles of the heart. For this purpose, during forensic or postmortem autopsy, pieces of organs are taken for morphological (histological, histoenzymatic, electron microscopic, etc.) studies, their fixation, wiring, slicing and staining of the latter with various dyes using generally accepted methods, subsequent study and description of drugs (G.A. Merkulov "Pathological histological technology course", Leningrad, "Medicine", 1969, 376 s). The disadvantages of this group of methods include: a) the fact that the functional state of the organ structures is judged by indirect data, b) the high complexity of the methods, c) the considerable time spent on its behavior.

 Also known are physiological (electrocardiography, echocardiography, etc.) and X-ray research methods that allow us to evaluate the functional abilities of the ventricles of the heart only in living people (Rosenberg V.D. Nepomnyashchikh L.M. "Coronarography in pathological morphology", Novosibirsk, "Science" , Sib. Department 1967, 244 pp. “Physiology and pathology of the heart”, under the editorship of N. Sperilakis, Moscow, “Medicine”, 1990, v. 1.2, p. 1240). The disadvantages of these methods include low resolution, the inability to use in pathological and forensic studies, lack of information about the morphological features of the structures of the heart.

 The method of intraoperative measurement of intramyocardial pressure (AMD) allows you to determine its maximum values during organ systole, the dynamics of the indicator during the cardiac cycle, and from these characteristics to judge the functional capabilities of the heart wall (Konstantinov B.A. Sandrikov V.A. Yakovlev V.F. "Performance evaluation and analysis of the cyclical work of the heart." Leningrad, "Science", 1986, 133 S.). It should be attributed to its shortcomings: the study is mainly only of the absolute values of the indicator, which have a significant scatter, a large error of the method due to the fact that the study is carried out only at one point of the organ and local features of the structure and function of the ventricular myocardium are not taken into account.

 Closest to the claimed solution is a method for determining tissue (intraorgan) pressure (TD) at several points of an organ (N), followed by calculation of its average value and error (Makarov A.K. Belokhvostikov Yu. P. "Registration and regulation of tissue pressure in normal and pathologically altered organs ", Irkutsk, 1987, 67 pp.). In the study of TD in the structures of organs, this indicator is measured at 10-15 different points. A significant drawback of this method is the wide variation in the values of TD in different areas and areas of the organ due to local and individual features of its structure. This affects the reliability of the results.

 The technical result of the method of rapid assessment of the normal morphofunctional state of myocardial structures is to increase the accuracy and reliability of the rapid assessment. The technical result is achieved by determining TD (for myocardium AMD).

 New in achieving the technical result is the determination of the ratio of TD (AMD) in the subepicardial layer to TD (AMD) in the subendocardial layer of the ventricles of the heart. Determination of the ratio of these AMD values can improve the accuracy and reliability of indicators due to differences in the structure of the subepicardial and subendocardial layers of the ventricles of the heart and the characteristics of their biomechanics.

 Also new is the fact that with a coefficient value of 0.91-0.95, the morphofunctional state of the myocardium is assessed as normal.

 The value of coefficient C in this case is determined as follows: when conducting a sectional study, the heart is removed from the corpse and AMD is measured at N points first under the epicardium, and then, after opening the cavities of the ventricles of the heart, AMD is measured in the same number of similar points under the endocardium. Then, the coefficient C value is found for each section of the wall of the ventricles of the heart.

В последующем вычисляются средние коэффициенты C для каждого желудочка и для всего сердца в целом.

Subsequently, the average coefficients C are calculated for each ventricle and for the whole heart as a whole.

 The authors revealed that in people who did not have pathology from the cardiovascular system, the values of coefficient C with a higher degree of reliability (P <0.01) are in the range of 0.91 0.95, and the values of these coefficients for the right and left ventricles they do not have significant differences (P = 0.26), which is confirmed by the data of the forensic and pathological studies using histological techniques.

 A decrease or increase in the coefficient C indicates a change in the normal morphofunctional state of the ventricular myocardium.

 A comparative analysis of the proposed method and the prototype shows that the claimed method differs from the known one in that it determines the relative values of the AMD values of the subepicardial and subendocardial layers of the ventricular myocardium and, with its value in the range of 0.91-0.95, determine the normal morphofunctional state of the myocardial structures, which meets the criterion of "novelty."

 The input coefficient C provides: increasing the accuracy of the study in pathological and forensic autopsy, reducing the volume of subsequent studies due to the fact that the results of using this method, you can plan the amount of subsequent diagnostic work, which significantly reduces labor and time costs, and also provides its practical use in pathological, forensic practice and experimental cardiology, which meets the criterion of "industry naya applicability. "

 In the analysis of known methods, it was found that they lack information on the influence of the relative features of the proposed method on achieving the goal, therefore, the invention meets the requirement of an inventive step.

 The method is as follows.

Если полученные результаты коэффициента C находятся в пределах 0,91-0,95, то с достоверностью более чем в 99% можно говорить о том, что патологии структур миокарда у данного субъекта не было.With forensic and postmortem autopsy, a heart is extracted from the corpse. An injection needle is connected by means of a polyvinyl chloride tube with a graduated capillary of a device for measuring TD in the modification of A.K. Makarova et al. (Makarov A.K. Belokhvostikov Yu.P. "Registration and regulation of tissue pressure in normal and pathologically altered organs", Irkutsk, 1987, 67 pp.) And filled with physiological saline. The device is at the level of the organ under investigation. The needle is inserted into the organ and the TD (AMD) is measured according to the method of A.K. Makarova et al. (see ibid.). AMD is measured at 12-24 points respectively under the epicardium and at similar points under the endocardium after opening the ventricular cavity. After the technical part of the determination of AMD for the calculation of the coefficient C, the formula is applied:

If the obtained results of the coefficient C are in the range of 0.91-0.95, then with a reliability of more than 99% we can say that the pathology of myocardial structures in this subject was not.

 In total, the proposed method examined 37 hearts from the corpses of people of the first period of adulthood of both sexes, the cause of death of which was traumatic brain injury and mechanical asphyxiation. The age of death did not exceed 36 hours. The results of statistical processing of the data showed that the confidence interval (p <0.01) of the average value of coefficient C for the normal morphofunctional state of the ventricular myocardium is from 0.91 to 0.95.

 The time spent on histological examination is from several hours to several days, and the use of the proposed method allows for rapid assessment in 15-20 minutes.

The proposed method of rapid assessment of the normal morphological and functional state of the ventricular myocardium is illustrated by the following examples:
1. D-dov, autopsy report N 1006, 1988, a man of 25 years. The cause of death was a traumatic brain injury, the period after death was 20-24 hours. A histological examination using morphological methods revealed no pathology from the myocardium. The study of intramyocardial pressure (AMD) gave the following results: AMD under the endocardium in the right ventricle (10 measurements) was 65.25 ± 4.46 mm aq. Art. AMD under the epicardium (10 measurements) 60.63 ± 3.79 mm aq. Art. The coefficient C for the right ventricle is 0.94. AMD under the endocardium in the left ventricle (12 measurements) was 66.5 ± 4.72 mm aq. Art. AMD under the epicardium (12 measurements) 62.5 ± 4.12 mm aq. Art. The coefficient C for the left ventricle is 0.929. The study time is 17-20 minutes.

 2. T-mov, autopsy report N 1375, 1989. man, 27 years old. The cause of death is mechanical asphyxiation. A histological examination conducted in the histological laboratory of the Bureau of Forensic Medicine of the Irkutsk Region using histological methods revealed no pathology from the myocardium. The study of AMD gave the following results: AMD under the endocardium in the right ventricle (15 measurements) was 49.38 ± 3.17 mm aq. Art. AMD under the epicardium (15 measurements) 45.5 ± 2.64 mm aq. Art. The coefficient C for the right ventricle is 0.941. AMD under the endocardium in the left ventricle was 50.63 ± 3.38 mm aq. Art. (21 measurements), AMD under the epicardium (21 measurements) 47.63 ± 3.49 mm aq. from. The coefficient C for the left ventricle is 0.922. The study time is 26-30 minutes.

 3. K-nova, autopsy report N 1203, 1992, woman, 22 years old. Cause of death car accident. The term after death did not exceed 36 hours. During a histological study conducted in the morphological laboratory of the forensic medicine bureau of the Irkutsk region (after studying and analyzing AMD) using morphological methods, myocardial pathology was not detected. The study of AMD gave the following results: AMD under the endocardium in the right ventricle (9 measurements) was 59.38 ± 4.07 mm aq. Art. AMD under the epicardium (9 measurements) 54 ± 3.39 mm aq. Art. The coefficient C for the right ventricle is 0.919. AMD under the endocardium in the left ventricle (12 measurements) was 57.38 ± 3.64 mm aq. Art. AMD under the epicardium (12 measurements) - 52.75 ± 3.13 mm aq. Art. The coefficient C for the left ventricle is 0.91. The time of the AMD study was 15-18 minutes.

 In all the examples cited, the values of the coefficient C are in the range from 0.91 to 0.95 (P <0.01), which confirms that there is no pathology of the myocardial structures, and the morphofunctional state of the myocardial structures can be defined as normal, which is consistent with histological examination data.

Claims (1)

 The method of rapid assessment of the normal morphofunctional state of the myocardium by determining tissue pressure in cadaveric material, characterized in that the ratio of tissue pressure in the subepicardial layer to tissue pressure in the subendocardial layer of the ventricular myocardium is determined and, with a coefficient value of 0.91 0.95, the morphofunctional state of the myocardium is evaluated as normal.