RU2505266C1 - Method for aging unknown dead body - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: aging an unknown dead body is ensured by length, frontal cut sawing and cleansing of a shoulder bone. Besides, a cut surface is polished, died and imprinted on a paper. The prepared imprint is used to measure a line of anatomical neck of humerus, a derived value is plotted along the bone from its upper point to find the level of surgical neck and brought along the bone. Further, a total width of the bone, as well as a thickness of right and left bone walls are measured, and their mean arithmetic thickness is derived. A morphometric coefficient is determined by the ratio of the bone width to the mean arithmetic wall thickness by formula: MC=TW/(RW+LW):2, wherein MC is the morphometric coefficient; TW is the total width; RW is the width of the right bone wall; LW is the width of the left bone wall. If MC is 8.0-12.0, the age is specified as 20-29 years old. If MC is 12.1-18, the age is specified as 30-39 years old. If MC is 18.1-22.0, the age is specified as 40-49 years old. MC making 22.1 and more shows the age of 50 years old and more.

EFFECT: method enables aging the unknown dead body objectively.

1 dwg, 3 ex

Description

The invention relates to medicine, namely to diagnosis, and can be used to determine the age of a corpse of an unknown person.

When working with unidentified corpses, including dismembered ones, age determination is a necessary component of activities aimed at establishing the identity of a deceased person. Morphological (biological) age reflects the development of the structure of organs and tissues of the human body, which occurred from the moment of birth to the moment of the study. In everyday life, in law enforcement and for other purposes, the chronological (passport) age is used, which indicates the number of years that have passed since the person was born. Age-related changes in the body of different people chronologically occur unequally. Some develop faster, others slower, the aging of the body also occurs at different times. This causes differences in passport and morphological ages. In addition, pathological processes affect the indicators of biological age. They can significantly accelerate or slow down the development of individual morphological characters used to determine age, as well as the development or aging of the organism as a whole, which naturally affects the results of determining the age and can cause significant differences between these results and passport age. Over the past decade, there has been an acceleration in the physical development (acceleration) of children and adolescents. The effect of acceleration on the growth and development of the skeleton is manifested by an increase in bone size, an earlier disappearance and a decrease in the frequency of pseudoepiphyses. In connection with the conduct of hostilities at the international level, a large number of crimes, accompanied by attempts to hide the corpse, emergencies and political unrest, determining the age of the corpse becomes an important condition for law enforcement officials and representatives of the forensic medical examination.

Forensic doctors and anthropologists have developed and are using various methods to determine the age of a corpse of an unknown person. Moreover, as already noted, gender, anthropological type, nationality, place of residence, the presence or absence of signs of pathological changes and some other circumstances are taken into account. In formulating a conclusion about the age of the subject, the results are taken into account in the aggregate, but this does not allow to avoid mistakes that can be made using the old methods of establishing age.

A known method of determining the age of a corpse using the x-ray method [Dyachenko VA. X-ray osteology. M., 1954, p. 60].

The known method is as follows. By brush in adult men and women, changes in the structure and form of the distal pineal gland of the middle phalanges are determined. Estimation of age is based on the appearance of osteophytes in the form of a “spike”, a change in the contour of the upper radial angle of the middle phalanges, which becomes “sharpened” and pointed, as well as the appearance of Ebeden and Burash nodes formed due to marginal bone growths (osteophytes).

The X-ray method allows with sufficient accuracy to judge the age by the timing of the occurrence of ossification nuclei, by the timing of the final formation of the skeleton in childhood and adolescence, as well as involutive changes that occur after 25-30 years. The known method has some subjectivity, in addition, for the production of x-rays requires expensive equipment and supplies, as well as specially equipped rooms and trained personnel.

The known method in the forensic medical study of badly burnt, dissected, skeletonized corpses is not suitable for use due to the lack of a brush or its severe damage by fire.

For the prototype of the invention, a method for determining the age of a corpse by frontal cutting of the upper part of the humerus, proposed by Hansen (1953-1954) [Pashkova V.I., Reznikov B.D. Forensic identification of a person by bone remains. Saratov, 1978, 320 p.].

The known method is as follows. A longitudinal frontal cut of the epiphyses of the humerus or femur is performed. As age indicators, the totality of data is taken into account, namely: the appearance of the bones, the nature of the epiphyseal line, the border of the upper edge of the bone marrow cavity, the nature of the compact and spongy substance of the bones.

The disadvantage of this method is the lack of an objective assessment of the nature of age-related changes in the bone tissue of a corpse, a quantitative measurement of age-related changes in the bone tissue of a corpse. As a result, expert conclusions have a large share of subjectivity, which leads to incorrect results of examinations.

The task of the invention is to increase the accuracy of the assessment and to enable the quantitative determination of age-related changes in the bone tissue of a corpse, which will increase the objectivity of the study.

The problem is solved in that in the known method for determining the age of a corpse of an unknown person, including a longitudinal, frontal cut of the humerus and its cleaning, additionally, the cut plane is polished, painted and an impression is made on paper, the line of the anatomical neck of the bone is measured on the resulting print, then the upper point along the bone is postponed the obtained value and get the level of the surgical neck, which is carried out across the bone, then measure the total width of the bone, as well as the thickness of the right and left walls to STI and determining the arithmetic mean of their thickness, morphometric factor determined by the ratio of the arithmetic mean bone width to wall thickness by the formula:

MK = ШО / (ШП + ШЛ): 2,

where MK is the morphometric coefficient;

SHO - total width;

ШП - width of the right wall of the bone;

HL - the width of the left wall of the bone,

and when receiving MK equal to 8.0-12.0, the age of 20-29 years is established, with MK equal to 12.1-18, the age of 30-39 years is set, with MK equal to 18.1 - 22.0, establish the age of 40-49 years, in 50 years and older MK is 22.1 or more.

The method is illustrated in graphic material.

The drawing shows an enlarged copy of the frontal cut of the humerus according to the proposed method. To take measurements from the upper point of the anatomical neck (point A), draw a line to the lower point of the anatomical neck (point B). Next, on the print from point A along the bone length, the obtained value of the anatomical neck is noted and point C. From point C, a line perpendicular to the AC segment is drawn and a CD segment is obtained. The CD segment is the level on the surgical cervix to take measurements. The location of the surgical neck is individual for each bone, however, to standardize and simplify the calculations, the inventors measure precisely at the level of point C (CD segment). Next, the width of each bone wall and the total width of the bone are determined on the transverse line. Measurements are carried out with a caliper, to the nearest tenth of a millimeter.

The present invention meets the criteria of "novelty" and "inventive step", since in the process of conducting patent information research, no sources of scientific, technical and patent information were found discrediting the novelty of the proposed invention, as well as technical solutions containing essential features of the proposed method.

The proposed method allows using the following technical effect:

- improve the accuracy of the method;

- provides an objective assessment of the age of the corpse;

- provides an opportunity to illustrate examinations and documentation of studies.

The method is simple to perform and does not require expensive equipment and reagents.

A bone imprint on paper is an exact copy of a bone cut with the exception of accidental distortion or marriage.

The method is as follows.

A frontal longitudinal cut of the upper end of the humerus from the articular head is performed, capturing the surgical neck of the bone. The resulting cut is washed from the bone marrow, for which it is immersed in boiling water for 15 minutes. Next, the bone is washed under a stream of hot tap water in order to completely clean the spongy bone tissue from the bone marrow. After that, the frontal cut of the bone is dried at room temperature for 1-2 days and the plane of the cut is leveled with a file. The parietal bone beams are mechanically removed within the surgical neck. Using a brush, dye is applied to the cut plane. Use any water-based dye. After smearing with paint the entire surface of the bone cut, an imprint of the bone cut on paper is made. A soft base is placed under the paper for a tighter contact between the bone and paper cut. Several duplicate prints are made to obtain clear contours of the bone and especially the walls at the level of the surgical neck. If necessary, the bone is re-greased with paint. To take measurements from the upper point of the anatomical neck (point A), draw a line to the lower point of the anatomical neck (point B). Next, on the print from point A along the bone length, the obtained value of the anatomical neck is noted and point C. From point C, a line perpendicular to the AC segment is drawn and a CD segment is obtained. The CD segment is the level on the surgical cervix to take measurements. The location of the surgical neck is individual for each bone, however, to standardize and simplify the calculations, the inventors measure precisely at the level of point C (CD segment). Next, the width of each bone wall and the total width of the bone are determined on the transverse line. Measurements are carried out with a caliper, to the nearest tenth of a millimeter. After obtaining the digital values: the width of the surgical neck (SHO), the thickness of the right wall (SH), the thickness of the left wall (SH) determine the morphometric coefficient (MK) according to the formula: MK = SHO / (SHL + SHP): 2. And when receiving MK equal to 8.0-12.0, they set the age of 20-29 years, with MK equal to 12.1-18, set the age of 30-39 years, with MK equal to 18.1 - 22.0, set the age of 40-49 years. At 50 years and older, MK is 22.1 or more.

Examples of specific performance are given in extracts from forensic medical examinations (LEAs):

1) Skeletonized remains found on the riverbank were delivered to the Nizhny Novgorod Bureau of the SME. Upon examination, it was found that the morphometric coefficient of the epiphysis of the humerus was 13.9 (age interval 30-39 years). Later, by investigation, these skeletal remains were identified. Age was 32 years.

28.6 / (2.1 + 2.0): 2 = 13.9 (age range 30-39 years).

2) Fragments of bones found in the forest were delivered to the Nizhny Novgorod Bureau of SME. Upon examination, it was found that the morphometric coefficient of the epiphysis of the humerus was 25.1 (age interval of 50 years and older). Later, by investigation, these remains were identified. Age was 57 years.

33.9 / (1.2 + 1.5): 2 = 25.1 (age interval of 50 years and older).

3) A corpse was delivered to the Nizhny Novgorod Bureau of SME with sharp putrefactive changes; the humerus was removed from the corpse. During the examination, it was found that the morphometric coefficient of the epiphysis of the humerus was 10.5 (age range of 20-29 years). Later, by an investigation, it was found that the corpse belongs to a man who is 27 years old.

29.5 / (3.0 + 2.6): 2 = 10.5 (age range 20-29 years).

Claims (1)

A method for determining the age of a corpse of an unknown person, including a longitudinal, frontal cut of the humerus and its cleaning, characterized in that the cut plane is additionally ground, painted and a print is made on paper, the line of the anatomical neck of the bone is measured on the resulting print, then from its top point along the bone postpone the obtained value and get the level of the surgical neck, which is carried out across the bone, then measure the total width of the bone, as well as the thickness of the right and left walls of the bone and determine the average Their thickness, morphometric coefficient is determined by the ratio of the width of the bone to the arithmetic mean wall thickness according to the formula:
MK = ШО / (ШП + ШЛ): 2,
where MK is the morphometric coefficient;
SHO - total width;
ШП - width of the right wall of the bone;
HL - the width of the left wall of the bone,
and when receiving MK equal to 8.0-12.0, the age of 20-29 years is established, with MK equal to 12.1-18, the age of 30-39 years is established, with MK equal to 18.1-22.0, establish the age of 40-49 years, in 50 years and older MK is 22.1 or more.

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