RU2176478C1 - Method of determining death time - Google Patents

Abstract

FIELD: medicine, particularly, legal medicine. SUBSTANCE: method includes registration of drop of rectal temperature and ambient temperature, measurement of corpse thickness, construction of mathematical model, calculation and analysis of obtained temperature values. In case of dead body of newborn, measured additionally are circumference of head, chest and abdomen, length of dead body and its weight. Measurement of drops of said temperatures is carried out in two stages. At the first stage, measurements are carried out during at least two hours at the site of accident, and then, in morgue. Coefficient of heat exchange is additionally determined (external heat conduction under regional conditions) and average radius of corpse thickness for calculation. Dependence of temperature on time is determined and time of death is determined by comparison of corpse initial temperature with table temperature data. EFFECT: reduced terms and high accuracy of determination. 3 cl, 1 ex

Description

 The invention relates to medicine, in particular to forensic medicine, and relates to a method for determining the prescription of death.

 One of the main problems of forensic science and practice, contributing to the disclosure of crimes against life, is the objective specification of the statute of limitations for the onset of death. There are a large number of methods, including the process of modeling the dynamics of changes in the temperature of a corpse over time and aimed at improving the accuracy of determining the time of death.

 There is a method of determining the limitation of the onset of death, including recording the temperature difference between the corpse and the environment at the scene, in which the difference between the normal temperature of the human body and the temperature of the corpse is additionally determined, after which the temperature of the corpse is determined under the conditions of the study, then the corpse is cooled to a temperature equal to the difference between the temperature of the corpse and the temperature difference between the temperature of the human body and the environment at the scene of the incident, and they are cooled to reach temperature decreases the differential between ambient air and the corpse on the spot, and cooling time of the corpse determine the time of death (SU 959,749, A 61 B 10/00, 1982 YG).

 The known method is based on modeling the process of cooling a corpse. However, the method is difficult to implement. In addition, due to the artificial creation of heat transfer conditions between the corpse and the environment, the analysis of the data obtained is not accurate enough.

 There is a method of determining the limitation of the onset of death, including recording the drop in the temperature of the corpse, ambient temperature, measuring body weight, its thickness, mathematical modeling of temperature dynamics in the post-mortal period by creating an endless cylinder that simulates the process of changing the temperature of the investigated corpse, plotting the temperature dynamics over time and analysis of the data obtained (Tolstolutsky V.Yu. Mathematical modeling of temperature dynamics in the post-mortal period to determine prescription of the onset of death. Author's abstract of a dissertation for the degree of Doctor of Medical Sciences - Moscow: NIISM, 1995).

 The measurements were carried out by dynamic thermometry in the liver, thigh, rectum by immersion at a predetermined value, the thickness of the corpse was determined, while the rectal temperature was given in dimensionless units to increase accuracy. In addition, measurements were carried out at intervals of 15-30 minutes. The shape of the corpse was approximated by a cylinder of infinite length. The solution of the basic heat equation was used to simulate post-mortem cooling modeling, the results of which were presented in graphs. The calculation of temperature values was carried out using computer processing techniques, which significantly reduced the time for evaluating the results.

 The disadvantage of this method is the low accuracy of the results of the analysis and the inability to use it to determine the age of death of a newborn.

 The closest analogue of the invention is a method for determining the age of death, including recording the differences in the rectal temperature of the corpse and the ambient temperature, measuring the thickness of the corpse, building a mathematical model using the exponential equation (based on the Newtonian law of cooling), using numerical methods of calculation on a computer and analyzing the obtained rectal temperature curve (KOUICHI HIRAIWA, YOUKICHI OHNO, FUSAKUNI KURODA, ISMAIL M.SEBETAN, SHIGEMI OSHIDA. Estimation of Postmortem Interval from Rectal Temperature by Use of Computer.- M ed. Sci. Law (1980) Vol. 20, N 2, p. 115-125).

 The known method includes the operation of building a human body as a model of an infinite cylinder, in which the influence of the radius of the cylinder on the measurement results was determined.

 The disadvantage of this method is the low accuracy of the research results when used to determine the age of death of a newborn, because the heat transfer coefficient (external heat conduction in boundary conditions) is not used in the equation for changing rectal temperature because of the difficulty of determining it, as the authors indicate, as well as the methodology for determining the thickness of the corpse (R) is not suitable for a newborn, the length of the corpse is not taken into account.

 Thus, these known methods do not have sufficient reliability of the measurement results to determine the duration of death if used in the study of the corpse of a newborn. A newborn is not an adult in miniature, in which all sizes would be proportionally reduced. If you try to judge a newborn by the criteria for an adult body, the newborn will appear disproportionate. (A. Andronescu. Anatomy of a child. - Bucharest: Meridian publishing house, 1970; F.F. Sax. Atlas on the topographic anatomy of a newborn.- M .: Medicine, 1993).

 In a newborn, the head is more rounded and makes up 1/4 of the entire body length, while in an adult this ratio is 1 / 7-1 / 8. The neck and chest are short, the abdomen is very long, the pelvis is poorly developed. Compared to body length, legs are short. It seems that the newborn consists of a head and a trunk. Based on the foregoing specifics of solving this issue is not in doubt.

 The technical result of the invention is to ensure accuracy, shortening the time and simplicity of determining the limitation of the onset of death of a corpse of a newborn.

 The technical result is ensured by the fact that in the method for determining the age of death, including recording the differences in the rectal temperature of the corpse and the ambient temperature, measuring the thickness of the corpse, building a mathematical model, calculating and analyzing the temperature values for determining the time of death, the corpse under investigation is the corpse of a newborn, this additionally measure the circumference of his head, chest, abdomen, length and body weight, measure the rectal temperature is carried out at a depth of 4-5 cm, and measure The environment is carried out at the level of the corpse, while the registration of the differences in the measurements of rectal temperature and the ambient temperature is carried out in two stages: at the first stage, the measurements of the differences in the indicated temperatures are carried out at the scene for at least two hours, and at the second stage of the measurement of the indicated temperatures in the morgue, moreover, they determine the heat transfer coefficient (external thermal conductivity in the boundary conditions) of the corpse under study for use in calculating the temperature atours at given times, make up the dependence of the calculated temperatures on time, and the time of death of the investigated corpse is determined by comparing the initial temperature measured at the scene with the temperature data obtained as a result of the calculation.

 In addition, when implementing the method for determining the statute of death, the measurement of changes in rectal temperature and ambient temperature is carried out with an interval equal to 30 minutes

 In addition, the calculated temperature values and the time corresponding to these values are presented in the form of a table of the dependence of the indicated values.

 SUMMARY OF THE INVENTION

 A method for determining the prescription of death involves registering rectal temperature measurements at the scene with an interval of 30 minutes by means of a measuring device, for example, a probe, which is placed in the rectum of the corpse of a newborn to a depth of 4-5 cm, while measuring and recording readings at the level of the examined corpse of the newborn ambient temperatures using known instruments designed for this purpose. Measurements of the indicated temperatures are carried out at the scene of the incident for at least two hours, after which the corpse of the newborn is sent to the morgue, where sequential measurement is continued (after 30 minutes) and the indicated temperature values are recorded. The measurement data is entered in the table. At the same time, the anthropometric data of the corpse are measured, namely: the circumference of the head, chest and abdomen, the length and weight of its body. Based on the data obtained, the body of the corpse under study is approximated in the form of a final cylinder, the length of which is equal to the length of the corpse, and its radius is the average value obtained by measuring the anthropometric data of the corpse.

 On average, the measurement period for changes in rectal temperature is 8-10 hours.

To ensure improved accuracy of the method, the obtained temperature values are converted into dimensionless values according to the ratio:
Q = [T (x, t) -Tc] / [To-Tc /, (1)
where Q is the dimensionless temperature of the corpse;
T (x, t) is the temperature of the corpse, measured at a depth of x cm at time t;
Tc is the temperature of the medium;
That is the initial temperature of cooling the body.

Разработанная математическая модель, в которой учитываются средний размер радиуса исследуемого трупа, его длина, а также предварительно рассчитанный коэффициент теплообмена (внешней теплопроводности в краевых условиях) конкретного трупа и переменная величина - температура окружающей среды, позволяет повысить точность способа определения давности смерти. Расчет значений температур в соответствии с указанной формулой (2) в заданные отрезки времени осуществляют на компьютере. Полученные расчетные данные величины температуры в заданные отрезки времени представляют, например, в виде таблицы зависимости температуры и времени. Затем производят сравнение величины начальной температуры трупа, измеренной на месте происшествия, с температурными данными таблицы для определения времени смерти исследуемого трупа новорожденного.Then calculate the coefficient of heat transfer (external thermal conductivity in the boundary conditions) "h" of the investigated corpse of a newborn by means of a specially developed computer program that is used in the main heat equation (G. Karslow, D. Eger. - Thermal conductivity of solids. - M .: Nauka, 1964 d) under clearly defined initial and boundary conditions for the theoretical calculation of the cooling process of the investigated corpse, introducing into it additionally pre-calculated values of the heat transfer coefficient (external heat transfer water content in the boundary conditions) - h for the boundary conditions of a given corpse of a newborn and the average value of its radius (R):

The developed mathematical model, which takes into account the average size of the radius of the investigated corpse, its length, as well as the previously calculated heat transfer coefficient (external heat conduction in the boundary conditions) of a specific corpse and a variable value - the ambient temperature, allows to increase the accuracy of the method for determining the prescription of death. The calculation of temperature values in accordance with the specified formula (2) at predetermined time intervals is carried out on a computer. The calculated temperature data obtained at given time intervals are presented, for example, in the form of a table of the dependence of temperature and time. Then, the initial temperature of the corpse, measured at the scene, is compared with the temperature data of the table to determine the time of death of the investigated corpse of the newborn.

 The use of the heat transfer coefficient (external thermal conductivity in boundary conditions), the average value of the radius of the body thickness, and the temperature values in dimensionless units in the equation provide an increase in the accuracy of determining the time of death. In addition, using a computer to carry out temperature calculations reduces the time to determine the age of death.

 The method according to the invention is simple to implement and does not require special technical means and techniques.

Example. The corpse of newborn N. was found in a forest on the bank of the pond, lying in an embryo position on the right side on the ground. The ambient air temperature at the level of the corpse (Tc) +19 ^o C, rectal temperature (To) is +31.1 ^o C with a probe immersion depth of 4.5 cm. For two hours at the scene with an interval of 30 minutes measurement of changes in rectal temperature and ambient temperature with registration of measured values in a special table indicating the measurement time (table 1), after which the corpse of a newborn is sent to the tanatology department (forensic morgue), where they continue to carry out the measurement above temperatures registering measurement values in said table 1.

 The process of measuring these temperatures is stopped after 8.5 hours. At the same time as measuring the temperature drops, the anthropometric data of the corpse are measured: corpse length - 53 cm, weight - 3550 grams, head circumference - 33.5 cm, chest - 33 cm, abdomen - 34 cm.

 Then, according to equation (1), the values of the measured temperatures are converted into dimensionless quantities: Q = [1, 0.8595, 0.7355, 0.6777, 0.5785, x, x, x, x, xx, 0.2066, 0.1901, 0.1736, 0.157, 0.1405, 0.1240, 0.1074], where each "x" indicates the missed measurement result when transporting the body to the morgue, after an interval of 30 minutes, the heat transfer coefficient is calculated using the computer of the corpse under study (external thermal conductivity in the boundary conditions) h = 0.164, the average value of the radius of the body thickness R is determined = 5.3 cm and taking into account the density of the body of the newborn substitute in the heat equation (2) and by means of a special computer program, the temperature values are calculated at specified time points, which, for the convenience of analyzing the results, are presented in the form of a table of temperature values depending on the measurement time (table 2).

To determine the time of limitation of death of the examined corpse of a newborn, the initial temperature of the investigated corpse, measured at the scene +31.1 ^o C, is compared with the values of temperatures in table 2. As a result of the comparison, it was found that the measured temperature is between two values of the calculated temperatures: 31 , 73 and 29.63. Consequently, the time of limitation of death is from 1.5 to 2 hours. According to operational investigative data, the duration of death is 1 hour and 35 minutes.

Claims (3)

 1. A method for determining the limitation of the onset of death, including recording the differences in the rectal temperature of the corpse and the ambient temperature, measuring the thickness of the corpse, building a mathematical model, calculating and analyzing the temperature values to determine the time of death, characterized in that the corpse under investigation is the corpse of a newborn, additionally measure the circumference of the head, chest, abdomen, the length and weight of his body, the measurement of rectal temperature is carried out at a depth of 4-5 cm, and the environment is measured drive at the level of the corpse, while the registration of differences in measurements of rectal temperature and the environment is carried out in two stages: at the first stage, the indicated temperatures are measured at the scene for at least two hours, and at the second stage, the indicated temperatures are measured in the morgue, and additionally determine the heat transfer coefficient (external heat conduction in the boundary conditions) of the corpse under study for calculating the temperature at given points in time, make up the dependence of read temperature values from time to time, and the time of death is determined by comparing the initial temperature measured at the scene with the temperature data obtained from the calculation.  2. The method according to claim 1, characterized in that the measurement of changes in rectal temperature and ambient temperature is carried out with an interval of 30 minutes  3. The method according to claim 1, characterized in that the calculated temperature values and the time corresponding to these values are presented in the form of a table of the dependence of these values.

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