RU2328737C1 - Analysis of bruise prescription on cadaver - Google Patents

Abstract

FIELD: medicine, legal medicine.

SUBSTANCE: method includes measured electrical resistance of biological tissue within bruise zone and within uninjured zone, as well as their thermal conductivity coefficients. Interstitial fluid resistance is measures (R_ItF;kOhm). Age of injured person and alcohol concentration in blood are taken into account. Bruise prescription is calculated by formula (BP):

, where BP is bruise prescription (hours); λ_bruise and λ_reference - skin thermal conductivity coefficient within bruise zone and within reference zone respectively (W/mchK); Z_injured and Z_uninjured - total resistance biological tissue within bruise zone and within reference respectively (kOhm); C_x - alcohol concentration in blood for the moment of cadaver examination (%o); Age - age of examined person by identification card (full years).

EFFECT: method provides reliable evaluation of bruise prescription on cadaver taking into account age and ethanol blood testing.

2 ex

Description

The invention relates to medicine, namely to forensic medicine, and can be used to establish the age of a bruise on a corpse by the integrated use of instrumental methods of research (impedanometry and determination of the thermal conductivity of biological tissues), taking into account the individual characteristics of the corpse (age, size of ethanolemia).

A known method for determining the age of the bruise (Kovaleva MS, Halikov A.A., Vavilov A.Yu. Determination of the age of the formation of bruising by impedancemetry // Problems of examination in medicine. Scientific and practical journal. 2006. - No. 3. Izhevsk. " Examination ”, p.15-19), the essence of which is to determine the total electrical resistance of biological tissue, which is done both for the bruising area and the obviously undamaged part of the body, taken as a control. Subsequently, the differential values of the electrical resistance of the biological tissue are calculated (the difference in the impedance of the skin of the bruising area and the undamaged area) and the duration of damage is determined by a graphical representation of the dynamics of the differential resistance of biological tissue.

The disadvantage of this method is its low accuracy, as well as the inability to take into account the individual characteristics of a particular object under study - the impedance of its intact skin, the size of ethanolemia, the age of the studied person.

There is a method of determining the limitation of a bruise (Babushkina K.A. Establishment of the limitation of bruising in the corpses of elderly people. Thesis ... Candidate of Medical Sciences. - Izhevsk, 2006. - 137 p.), Adopted by us as a prototype, the essence of which is in determining the value of the coefficient of thermal conductivity of the skin from the bruising area and comparing the obtained values with those indicated in the tables.

The disadvantages of this method is the low accuracy, neglect of the individual characteristics of the corpse (age, size of ethanolemia, thermal conductivity of intact skin).

The objective of the claimed invention is the creation of a reliable high-precision instrumental method for the diagnosis of prescription of bruising on a dead body by an integrated method, taking into account the individual characteristics of the corpse (age, size of ethanolemia).

The solution of the claimed invention is achieved by the fact that according to the method of establishing the age of a bruise on a corpse, including determining the electrical resistance of biological tissue of the bruising area and the intact area, as well as their thermal conductivity coefficient, they additionally measure the resistance of the tissue fluid, take into account the age of the victim and the concentration of alcohol in his blood, and calculates the prescription of bruising (DC) according to the formula:

where DK - prescription of bruising (hour);

λ _bruising and λ _control - the coefficient of thermal conductivity of the skin of the bruising area and the control area of the body, respectively (W / m × K);

Z _pov and Z _povp - the total resistance of biological tissues of the bruising area and the control area of the body, respectively (kOhm);

C _X is the concentration of alcohol in the blood of the test person at the time of the study of his corpse (‰);

Age - passport age of the test person (full years).

The advantage of the method is its high accuracy and consideration of the individual characteristics of a particular corpse.

The method is as follows.

The needle immersion sensor of a typical electronic impedance meter is immersed in the central part of the bruise under investigation. By setting the frequency of the measurement current to 1 kHz, according to the impedance meter, we determine the electrical resistance of the biological tissue of the bruising area, writing it as Z _bruising . A needle immersion sensor of a typical electronic impedance meter is immersed in a deliberately undamaged area of biological tissue at a distance from the edge of the bruise equal to its radius. By setting the frequency of the measurement current to 1 kHz, according to the impedance meter, we determine the electrical resistance of the undamaged portion of the biological tissue, writing it as a Z _control .

We remove the skin flap in the bruising area, and as a control, the skin flap from the intact area. The diameter of the samples, the excision of which is performed with a scalpel, should be equal to 8 cm. Subcutaneous fat is separated. The thermal conductivity coefficient of skin flaps is determined using the “Hardware-software complex for determining the thermal conductivity coefficient of biological tissue” according to the method (Vavilov A.Yu. Thermophysical parameters of tissues of human internal organs in the early post-mortal period for the purpose of determining the age of death by thermometric method: Abstract ... cand Medical Sciences. - M., 2000. - 22 pp.) for the skin of the bruising area and the control part of the body, recording the results as λ _bruise and λ _control, respectively of course.

To obtain tissue fluid after conducting a study on the thermal conductivity of the skin, previously studied skin flaps are crushed with surgical scissors and thoroughly worn in a porcelain cup until a homogeneous mass is obtained. The resulting mass is collected in a standard glass tube and subjected to centrifugation in an OPN-8UHL centrifuge or similar for 50 minutes at a speed of 5000 rpm.

About 1.0 ml of supernatant is collected in a 2 ml plastic disposable syringe.

One drop of liquid is transferred to a fat-free glass slide and, after drying and staining with azureosin according to Romanovsky (standardized dye azure-eosin Professional, produced by NPF ABRIS at a dilution of 1:12 or the like), is microscopic at a magnification of × 280 to control the absence of cellular elements and collagen fibers of the tissue. After verifying the “purity” of the liquid obtained, an impedance sensor is placed inside the syringe so that its needles are completely immersed in the liquid.

The electrical resistance is measured at a research current frequency of 1 kHz, recording the result as R _TKZH .

The value of the passport age of the test person is established in the analysis of official documents.

The concentration of ethanol in the blood of a corpse is established by a gas chromatographic study conducted by the Bureau of Forensic Medical Examination according to the method approved for the forensic chemical departments of this institution.

The calculation of the age of the bruise is calculated by the formula:

where DK - prescription of bruising (hour);

λ _bruising and λ _control - the coefficient of thermal conductivity of the skin of the bruising area and the control area of the body, respectively (W / m × K);

Z _pov and Z _povp - the total resistance of biological tissues of the bruising area and the control area of the body, respectively (kOhm);

C _X is the concentration of alcohol in the blood of the test person at the time of the study of his corpse (‰);

Age - passport age of the test person (full years).

Example 1. Forensic research of a corpse gr. A .: “... Damage: on the inner surface of the left shoulder in the middle third, spotted bruising, irregular oblong shape 15 × 8 cm, with fuzzy contours, blue-green color ... Act of forensic chemical study No. 7058: Ethyl was detected alcohol in a concentration in the blood of 1.69 ‰ ... Conclusions: ... On the corpse, damage to the nature of bruising on the upper extremities was discovered, formed 1-3 days before the onset of death from the action of solid objects, and incapable of a causal connection with its onset. .. ".

When measuring the total electrical resistance of the skin of the bruising zone on the inner surface of the left shoulder, its value equal to 10.3 kOhm was obtained. When measuring the total electrical resistance of intact skin at a distance of 2.5 cm from the edge of the bruise, which is equal to its radius, a total resistance of 10.87 kOhm was obtained. The thermal conductivity coefficient was 0.572 and 0.380 W / m × K, respectively, for the bruising zone and the control part of the body. The tissue fluid resistance was 16 kΩ.

We calculate the limitation of inflicting a bruise:

The sought-after bruising is 29.6 hours.

Example 2. Forensic medical examination of a corpse gr. A .: “... Damage: around the right eye, a bruise extending to the cheek and reaching the horizontal part of the lower jaw on the right is purple-cyanotic-violet-greenish-yellow. On the outer surface of the left forearm 2 bruise 3 × 2 cm, 1.5 × 2 cm. In the iliac region on the right, the bruise is 1.5 × 1 cm. Their color is blue-violet ... Act of forensic chemical study No. 3757: Ethyl alcohol is not found ... Conclusions: ... on the corpse revealed damage to the nature of the bruise around the right eye extending to the cheek, on the outer surface of the left forearm, in the iliac region on the right, abrasions on the front surface of the right knee joint, lower leg, left lower leg, left elbow joint on the left forearm, forming REGARD the action of any solid blunt objects or when they hit the those for 1-3 days before death. Such injuries do not cause harm to living persons ... ”

When measuring the total electrical resistance of the skin of the bruising zone of the outer surface of the left forearm, its value equal to 9.9 kOhm was obtained. When measuring the total electrical resistance of intact skin at a distance of 1.5 cm from the edge of the bruise, which is equal to its radius, a total resistance of 10.94 kOhm was obtained. The thermal conductivity coefficient was 0.558 and 0.545 W / m × K, respectively, for the bruising zone and the control part of the body. The tissue fluid resistance was 16 kΩ.

We calculate the limitation of inflicting a bruise:

The sought-after bruising is 71.3 hours.

Claims (1)

A method for determining the age of a bruise on a corpse, including determining the electrical resistance of biological tissue of the bruising area and the intact area, as well as their thermal conductivity coefficient, characterized in that they additionally measure the resistance of the tissue fluid (R _TKZh ; kOhm), take into account the age of the victim and the concentration of alcohol in his blood and calculate the prescription of bruising (DC) according to the formula

where DK - prescription of bruising (h); λ _bruising and λ _control - the coefficient of thermal conductivity of the skin of the bruising area and the control area of the body, respectively (W / mxK); Z _pov and Z _povp - the total resistance of biological tissues of the bruising area and the control area of the body, respectively (kOhm); C _X is the concentration of alcohol in the blood of the test person at the time of the study of his corpse (‰); Age - passport age of the test person (full years).