Evaluation of cadaveric spots is important for determination. Forensic medicine. Early cadaveric phenomena

4. Physico-chemical mechanisms of the emergence of the resting potential Membrane potential (or resting potential) is the potential difference between the outer and inner surfaces of the membrane in a state of relative physiological rest. The resting potential occurs at

5. Physico-chemical mechanisms of the occurrence of an action potential An action potential is a shift in the membrane potential that occurs in tissue under the action of a threshold and superthreshold stimulus, which is accompanied by recharging of the cell membrane. Upon action

9. Characteristics and forensic significance of abrasions and bruises An abrasion is a superficial mechanical damage to the epidermis of the skin or the epithelium of the mucous membranes. In the mechanism of their formation, the main role is played by the movement of an object along the surface of the body, and

10. Characteristic features of wounds resulting from the action of blunt objects. Their forensic medical significance Mechanical damage to the integument of the body, penetrating deep into the dermis of the skin or into the subcutaneous (submucosal) tissue is called wounds. Injuries depending on the

16. Mechanisms for the occurrence of damage when crossing with the wheel (wheels) of a vehicle As an independent type of automobile injury, crossing with a wheel (wheels) is rare, more often combined with an impact from a vehicle. Up to 90% of all crossings are made by trucks

19. Railway injury. Mechanisms of damage. Issues resolved by forensic medical examination Railway injury refers to rail injury. Types of rail injuries have many similarities with types of car injuries. Mechanisms of formation

23. Mechanisms of occurrence and characteristics of chopped wounds. Issues resolved by forensic medical examination Chopping tools are called axes, hoes, shovels, etc. The presence of a more or less sharp blade and a relatively large mass, as a rule, is their

34. Drowning. Forensic significance. Signs of a long stay of a body in water Mechanical asphyxia, which develops when a person is immersed in liquid, is called drowning. By type of death, drowning is most often an accident; less often it is

45. Late cadaveric changes. Causes of occurrence. Forensic significance Late cadaveric phenomena include fat wax, putrefaction, mummification, peat tanning, and preservation. The corpse may be subject to destruction or preservation as a result of the development of late

53. Establishing the presence of blood on physical evidence. Forensic blood examination Determining the presence of blood. Blood samples are divided into two large groups: preliminary (indicative) and reliable (evidence). Preliminary samples

Introduction……………………………………………………………………………….

Chapter 1. The concept of late cadaveric phenomena and their types………………

1.1.Rotting………………………………………………………………..

1.2. Mummification…………………………………………………………

1.3. Fat wax (saponification)……………………………………………

1.4. Peat tanning………………………………………………………

1.5. Corpse fauna………………………………………………………

Chapter 2. Forensic medical significance of late cadaveric phenomena….

Conclusion………………………………………………………………..

Bibliography ……………………………………………………….

Introduction

The study of cadaveric phenomena allows us to solve a number of very important questions that clarify the circumstances of death, namely: when death occurred, whether the initial position of the corpse changed. Some options for the development of post-mortem processes on a corpse can provide preliminary information about the causes of death.

Post-mortem processes developing on a corpse, in their biological essence, can be divided into three large groups.

1. Early cadaveric phenomena are processes caused by the cessation of life support processes for organs and tissues: these are cadaveric spots, rigor mortis, cadaveric cooling, cadaveric desiccation and autolysis.

2. The phenomena of tissue survival - responses of dying tissues to external stimuli - electrical, mechanical and chemical. The more time passes from the moment of death, the less these reactions appear.

3. Late cadaveric phenomena - changes in the corpse that occur after the early cadaveric phenomena have completed their development, these include: rotting, mummification, skeletonization, fat wax, peat tanning. These processes are closely related to damage to corpses by animals and plants.

The appearance and development of cadaveric processes is influenced by many external and internal factors. Knowledge of their influence on the processes of post-mortem changes in a corpse is necessary, since without such knowledge it is almost impossible to use the dynamics of post-mortem processes to solve forensic and, accordingly, investigative problems.

The main internal factors of this plan are: the degree of fatness, age, the presence of serious chronic or acute diseases, the degree of alcoholization of the body and some others. These processes are significantly influenced by the cause of death and accompanying phenomena, such as blood loss, duration and severity of the agonal period, etc. The nature of clothing matters. External conditions that influence the development of post-mortem processes include: ambient temperature, humidity, development of flora and fauna of the environment. The nature and degree of influence of the factors listed above will be presented when describing specific post-mortem processes.

Early ones develop within the first day after death, late ones - in subsequent days, weeks, months and years.

Early cadaveric phenomena include cadaveric spots, rigor (muscular) rigor, cooling of the corpse, drying out and autolysis;
to the later ones - rotting, mummification, fat wax and peat tanning.

Chapter 1. The concept of late cadaveric phenomena and their types.

The corpse, depending on the nature of the processes developing in it, is subjected to destruction (rotting) or preservation - mummification, peat tanning, transformation into fat wax. The formation of such changes ends a month and even years after death. They are called late cadaveric changes (phenomena). Their character largely depends on the conditions in which the corpse is located. Late cadaveric phenomena include: rotting, mummification, skeletonization, fat wax, peat tanning, as well as damage to corpses by animals and plants.

Rotting.

Rotting is the process of destruction of biological tissues under the influence of putrefactive microbes. Putrefactive microbes are widespread in our environment: they are found in the soil, in dust raised by air movement, on the surface of objects where dust settles, and, consequently, on clothing and the human body. In addition, putrefactive microbes are found in large numbers in the human large intestine, participating in the digestion process. Thus, putrefactive microbes always exist in a corpse. For the life of putrefactive microbes, the presence of three basic conditions is necessary: ​​oxygen, moisture and a certain temperature. Rotting occurs faster at temperatures of 30–40°C and high environmental humidity, as well as in death from sepsis and some infectious diseases (for example, from gas gangrene), slower at high (50–60°C) and low (0. .. −10°C) temperature, in dry air, dry soil, cold water. At temperatures below 0°C, rotting does not occur.

During the process of decay, a large amount of putrefactive gases arises, which cause swelling of the corpse (cadaveric emphysema)
and the appearance of a specific unpleasant odor. The combination of some waste products of putrefactive microbes with blood hemoglobin leads to the formation of substances (in particular, sulfhemoglobin) that are green in color. This is associated with the formation of corpse greens during rotting.

Putrefactive decomposition of tissues can begin quite quickly and manifest itself in different ways. The influence of many factors on the activity of decay processes leads to significant fluctuations in the timing of the appearance of certain putrefactive changes, so it is only possible to empirically establish the approximate time of formation of these changes. Typically, the first sign of decay - a dirty-greenish coloration of the anterior abdominal wall (cadaveric green) - is observed after 1-2 days of the corpse being at room temperature. On days 3–4, dirty green stripes appear on the skin along the blood vessels - a putrefactive venous network. By the end of the first week, cadaveric emphysema develops: the accumulation of putrefactive gases in the tissues causes an increase in their volume, as a result the corpse takes on a gigantic appearance. On days 10–12, the entire skin of the corpse has a dirty green color, the epidermis swells, the surface of the skin becomes slimy, easily opened putrefactive blisters form, and a foul-smelling liquid oozes out of the corpse. Subsequently, due to loosening of the skin, putrefactive gases freely come out and the volume of the corpse approaches the original. The decomposition process is fascinating
and internal organs, which after a few months take on the appearance of a homogeneous dirty-brown or dirty-gray mass with a poorly distinguishable structure. After about 1–1.5 years, the soft tissues disintegrate. Bones can last for decades. Estimating the time of death based on the severity of decay should be done with great caution.

Mummification.

Mummification is the drying out of not only the surface, but
and deep tissues of the corpse, occurring in dry, warm, well-ventilated conditions (in attics, coarse-grained and sandy soils). Mummification is preceded by decay, but as the corpse loses fluid, it slows down and then stops altogether.

The mass and volume of the mummified body are sharply reduced. The skin is dark brown, dense, dry. Histological examination can distinguish the general structure of organs and blood vessels, the structure of connective tissue, skeletal muscle, and the contours of adipose tissue cells. Complete mummification of an adult corpse is possible after 6–12 months, and under particularly favorable conditions – after 2–3 months. The corpses of children are mummified within a few weeks. The literature describes a case of mummification of the corpse of an adult man for several days, lying on the grate of a ventilation pipe through which hot air was actively driven. In some cases, special hydration treatment of a mummified body or its parts makes it possible to restore the original appearance of the corpse.

Fat wax (saponification).

Fat wax is a cadaveric change related to late cadaveric phenomena of the preservative type; its second name is saponification. The main conditions for the formation of fat wax are high humidity in the environment where the corpse is located and minimal air access. Saponification develops in water, in dense and moist soils and in other similar conditions.

The essence of the process is the gradual decomposition of the fat contained in the corpse and the washing out of some of the resulting derivatives. The remaining water-insoluble fatty acids combine with alkali and alkaline earth metal salts, forming a substance called fat wax. Depending on which metal salts the fatty acids are combined with, the fat wax can be either a gelatinous substance of a dirty gray color or a dense substance of gray-white color with a greasy sheen.

Analysis of literary data shows that various authors indicate that they observed the first signs of saponification of the tissues of a corpse from 25 days to 3 months after death. Complete saponification of a corpse occurs no earlier than 6-12 months on the corpses of adults; on the corpses of children it is possible a little faster.

The structure of most tissues with such changes in the corpse is preserved quite well. During a forensic medical examination, it is possible to detect damage and features of the intravital structure of some tissues. Fat wax is a rather rare phenomenon in forensic practice.

The study of saponification processes only tentatively allows us to speak about the duration of death.

Peat tanning.

Peat tanning is a preserving late cadaveric phenomenon, the essence of which is the tanning (compaction) of tissue under the influence of an acidic environment. In forensic medical practice, corpses that have undergone such a change are even less common than corpses in a fat wax state. Mostly such finds were made in peat bogs, where body tissues of deceased people were exposed to long-term exposure to humic acids. Under the influence of these acids, the skin of corpses and internal organs become denser and acquire a dark color. Under the influence of acids, calcium is washed out of the bones and they become soft and flexible. Peat-tanned corpses last a very long time. It is possible to detect and study damage on such corpses.

Various authors have included several more post-mortem processes in the group of preservative cadaveric changes. Salting of corpses is a phenomenon in which the corpse is exposed to concentrated solutions of salts or dry salts; by their influence they stop the processes that destroy the corpse. There are literary data indicating the possibility of preserving corpses when they get into oil. Formalin, some alcohols and other chemicals have a preservative effect on biological tissues. Low temperature is one of the factors that can preserve corpses unchanged for a long time. The corpses of prehistoric animals are known to have been preserved to this day in permafrost.

The conditions under which the corpse is located from the moment of death until the moment of its examination may change. And then, instead of some post-mortem processes, others begin to develop. In practice, cases are common when different conditions simultaneously act on a corpse and, accordingly, its different parts change differently. For example, a corpse located on the soil, from the ground side, rots and is destroyed by carrion-eating insects, and at this time the parts of the body facing upward are mummified due to ventilation and drying.

If a corpse with signs of rotting begins is placed in a dry, well-ventilated place, then the decay processes are suspended and mummification develops. The decay process also stops when the ambient temperature drops below 0 °C. Conversely, a corpse preserved in some way, for example, frozen in the cold season, can begin to rot and be destroyed by animals when it warms up.

Corpse fauna.

The appearance of a corpse in the environment is a biological signal
to its destruction for numerous representatives of the animal world. The leading role among them belongs to insects, representing the entomofauna of the corpse. Under conditions that provide them with maximum activity, fly larvae can completely skeletonize the corpse of an adult in one month, and the corpse of a newborn in 1.5–2 weeks.

Within a few hours after death, flies lay eggs in the corners of the eyes, in the nasal cavity and mouth, in the folds of the skin, and on the damp wound surface. By the end of the first day, white small larvae (puparia) are formed from the eggs, which immediately begin to destroy the soft tissues of the corpse. They secrete an active enzyme that melts soft tissue, which significantly speeds up the process of their destruction. During the first week, the larvae are thin, no more than 6–7 mm long. In the second week, their intensive growth begins: they reach 1.5 cm and thicken to 3–4 mm.

By the end of the second week, the larvae crawl into dark places (under a corpse, under clothing), lose mobility and pupate. Their yellowish-gray color gradually turns into dark brown. The surface of the pupa is covered with a dense shell, inside which an adult develops within two weeks. A fully formed insect gnaws through one of the ends of the shell and crawls out. Within 1–2 hours, the wet fly dries out, acquires the ability to fly, and within a day can lay eggs. The biological development cycle of a fly, which covers an average of about four weeks, can shorten as the ambient temperature increases, and slightly increase as the ambient temperature decreases.

Among insects, ants and many beetles are also biological destroyers of corpses: large and small carrion eaters, sarcophagi, skin beetles, staffellines, little ones, etc. Dense tissues (cartilage, ligaments) are destroyed by some types of mites. Ants, beetles and mites have different cycles of biological development (this cycle can be used to judge the age of death).

The activity of most insects is seasonal. In mid-latitudes, their greatest activity occurs in late spring, summer and early autumn. In each climatic zone, the beginning and end of insect life have strictly defined seasonal intervals. Consequently, when assessing the activity of insects, it is possible to establish not only the time of death, but
and the time of year when death occurred.

Relatively small regions, due to specific climatic and geographical conditions, retain their own biologically balanced flora and fauna (biotope). This also applies to insects that destroy corpses. The presence of insects on the corpse that are not typical for this biotope indicates deliberate or passive movement of the dead body (for example, along a river).

Corpses in natural conditions are also damaged by small rodents (mice, rats) and large animals (wolves, jackals, foxes, pigs, birds of prey), which are most active in winter, when they are limited in the quantity and variety of food.

Chapter 2. Forensic medical significance of late cadaveric phenomena.

Putrefactive transformations of a corpse make very noticeable changes in the structure of tissues and organs, destroying existing pathological changes, but at the same time, forensic medical examination of corpses should be carried out regardless of the degree of decay. Even with pronounced putrefactive changes, it is possible to detect damage and pathological conditions that will make it possible to establish the cause of death and resolve other issues that arise before the expert. The degree of development of putrefactive decomposition of the corpse is used to make an approximate judgment about the duration of death. Sharp putrefactive changes in the corpse make it significantly difficult, and sometimes impossible, to determine the intravital or postmortem origin of the damage present on the corpse, as well as the cause of death in diseases.

The forensic medical significance of mummification lies in the fact that the damage is preserved on the mummified corpse, although in a sharply deformed form. Currently, methods have been developed to restore the elasticity of the skin of mummified corpses, which makes it possible to perform a fingerprint examination (American researchers conducted fingerprinting of one of the Egyptian mummies), restore the original appearance of the damage and thus obtain information about the characteristics of the damage caused, their mechanism, tools, and identify the individual .

The forensic medical significance of adipose wax is that damage is preserved on the corpse, which, unlike mummification, is practically not deformed. Significant deformation does not occur and corpses in the adipose wax state are fairly easy to identify.

The significance of peat tanning for forensic medical examination is that the corpses retain damage, albeit in a sharply deformed state, and identification is difficult. The timing of death cannot be determined.

Conclusion

The onset of death is manifested in an irreversible disruption of the basic vital functions of the body, followed by cessation of the vital functions of individual tissues and organs. Late cadaveric phenomena are phenomena that begin to develop over several days, weeks, months and even years, and continue indefinitely.

They are divided into destructive and preservative. The first includes rotting, the second includes mummification, fat wax, peat tanning, preservation in natural (salt lakes, oil, ice, etc.) and artificial preservatives.

Destructive cadaveric phenomena change the appearance of the corpse, change the shape and structure of organs and tissues. According to the degree of development, they are divided into pronounced and far advanced.

Rotting makes it difficult, and sometimes impossible, to determine the intravital or postmortem origin of the damage present on the corpse. The degree of development of putrefactive decomposition of the corpse is used to make an approximate judgment about the duration of death. Rotting destroys signs of damage and painful changes in organs and tissues, makes it difficult to determine the duration and cause of death, promotes the floating of corpses in water, and changes the concentration of alcohol in the tissues and fluids of the corpse. The significance of mummification for establishing the duration of death is small, since the rate of mummification depends on many factors that are difficult to account for. Along with this, it allows one to identify a corpse by its appearance, determine gender, height, age, recognize injuries and painful changes, and establish the group specificity of proteins in tissues and organs, which allows one to judge the blood type. The meaning of adipose wax is basically the same as that of mummification. Corpses in a state of fat wax can be identified even after tens of years.

On corpses that have turned into adipose wax, it is possible to identify various injuries, strangulation furrows, alcohol, or one or another poison.

The detection of insects and their remains allows us to judge how long ago the death was, the conditions under which the corpse was found, certain periods of the year, and seasonality.

Thus, when discovering a corpse that has been destroyed by various insects, investigators must remember the possibility of resolving a number of issues based on the study of the corpse fauna.

Bibliography

1)Gritsaenko P.P. Forensic medicine course. Textbook-Ekaterinburg: Publishing house Ural State Law Academy. 2004

2) Samishchenko S.S. Forensic medicine: a textbook for law schools. Moscow, 2006

3) O.V. Kalmin, O.I. Fedulov Selected issues of forensic medicine. Textbook, Penza 2008.

Forensic examination of corpses: lecture

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Lecture IV. FORENSIC MEDICAL RESEARCH OF CORDS

• § 1. Dying and death. Death classification.
• § 2. Early and late cadaveric changes.
• § 3. Establishing the limitation of death.
• § 4. Features of external examination of a corpse in various types of death.

Literature:

1. Gritsaenko P.P., Vermel I.G. Forensic Medicine. Ekaterinburg, 2001.
2. Matyshev A.A. Inspection of the corpse at the place of its discovery. Guide for doctors. St. Petersburg, 1997.
3. Melnikov Yu.L., Zharov V.V. Forensic determination of the time of death. M., 1978.

A dead human body is a rather complex object of forensic medicine. In order to effectively resolve issues of interest to law enforcement agencies in cases of discovery of corpses, forensic doctors, based on data from other biomedical sciences and their own research, have developed a theory of the process of dying and death. Based on this theory, a system of practical research of corpses at the places where they were found and in the morgue was built. The fundamentals of science and practice of this branch of forensic medicine are presented in this part of the lecture course.

§ 1. Dying and death. Death classification

The concept of death is directly related to the concept of life; life ends with death. Therefore, to understand what death is and how it occurs, it is necessary to first define life.

The most general and brief biological and philosophical definition of life is as follows: “Life is the form of existence of protein molecules.” Of the generally accepted definitions of death, attention should be paid to the one proposed by the United Nations: “Death is the complete cessation of all vital functions of the body.”

Ordinary dying, so to speak, consists of several stages that successively replace each other.

1. Pregonal state. It is characterized by profound disturbances in the activity of the central nervous system, manifested by the victim’s lethargy, low blood pressure, cyanosis, pallor or “marbling” of the skin. This condition can last quite a long time, especially in the context of medical care.
2. Agony. The last stage of dying, in which the main functions of the body as a whole are still manifested - breathing, blood circulation and the governing activity of the central nervous system. Agony is characterized by a general deregulation of body functions, therefore the provision of tissues with nutrients, but mainly oxygen, is sharply reduced. Increasing hypoxia leads to the cessation of respiratory and circulatory functions, after which the body enters the next stage of dying. With powerful destructive effects on the body, the agonal period may be absent (as well as the preagonal period) or may not last long; with some types and mechanisms of death, it can last for several hours or even more.
3. Clinical death. At this stage, the functions of the body as a whole have already ceased, and it is from this moment that the person is considered dead. However, the tissues retain minimal metabolic processes that maintain their viability. The stage of clinical death is characterized by the fact that an already dead person can still be brought back to life by restarting the mechanisms of breathing and blood circulation. Under normal room conditions, the duration of this period is 6-8 minutes, which is determined by the time during which the functions of the cerebral cortex can be fully restored.
4. Biological death - this is the final stage of the dying of the body as a whole, replacing clinical death. It is characterized by irreversible changes in the central nervous system, gradually spreading to other tissues.

From the moment of clinical death, post-mortem changes in the human body begin to develop, which are caused by the cessation of the functions of the body as a biological system. They exist in parallel with ongoing life processes in individual tissues.

1.5-2 hours after death, fairly clear signs of post-mortem changes appear on the corpse, such as cadaveric spots, rigor mortis, rigor desiccation. Somewhat later, a significant decrease in body temperature is clearly detected, which also reliably indicates the occurrence of death.

Death classification. As already noted, death can occur from various external and internal causes. Based on the characteristics of the factors causing death, several forensic classifications of death have been created, which naturally take into account the interests of law enforcement agencies and the provisions of the criminal procedure law.

Let's consider one of the most common classifications. According to this classification, death is divided into two categories: violent And nonviolent. Violent It is generally accepted that death occurs as a result of the action of an external factor on the human body: mechanical, chemical, physical, etc.

Nonviolent death is caused by diseases and, less often, by profound age-related changes (from old age).

In some cases, the action of external and internal factors occurs together, and it can be difficult to determine which of them plays the leading role.

Violent death may be murder, suicide or accident, it is called born of violent death. Determining the type of violent death is the responsibility of law enforcement agencies; forensic doctors do not determine the type of death. But by their examination of the corpse at the scene and in the morgue, as well as examination of traces of biological origin, they can give the investigator grounds to establish the type of violent death: murder, suicide or accident. Naturally, the investigator makes the final decision based on the totality of all the data he has collected, including forensic data.

Among the possible options for non-violent death, the concept is distinguished sudden death. Sudden death refers to the death of a person, which occurred unexpectedly for those around him against the background of apparent health.

Kind of death determined by the nature of the factor that led a person to death. In this case, factors are grouped according to their mechanism of action and other characteristics.

The following types of violent death are distinguished: from mechanical damage; from mechanical asphyxia; from poisoning; from high and low temperatures; from the action of electricity; from the effects of changes in barometric pressure; from the action of radiant energy. Some other types of violent death are less common.

Violent death of the same type can be of different types, i.e. It could be murder, suicide, or an accident. Let us illustrate this with the following simple example. Let's say a person was poisoned with methyl alcohol - a strong poison. Forensic doctors, under certain circumstances, can easily establish that methyl alcohol poisoning occurred, therefore, the death is classified as violent, the type of death is poisoning. But establishing the type of death is the responsibility of law enforcement agencies. A person could consciously pour methyl alcohol into a glass and drink it, wanting to end his life. Having established this, law enforcement agencies classify the event as suicide. If it is established that the poison was poured into the glass by another person who knew what he was doing, then this is already murder. If the victim drank methyl alcohol by mistake, mistaking it for ethyl alcohol, and this mistake was not rigged by anyone, then there is an accident. When determining the type of death in the situation described, forensic medicine can practically do nothing to help the investigation. But in many cases, its help can be, if not decisive, then significant.

Non-violent death is divided into the following main types: from diseases of the cardiovascular system; from respiratory diseases; from diseases of the central nervous system; from diseases of the digestive system, etc.

§ 2. Early and late cadaveric changes

The study of cadaveric phenomena allows us to solve a number of very important questions that clarify the circumstances of death, namely: when death occurred, whether the initial position of the corpse changed. Some options for the development of post-mortem processes on a corpse can provide preliminary information about the causes of death.

Post-mortem processes developing on a corpse, in their biological essence, can be divided into three large groups.

1. Early cadaveric phenomena - processes caused by the cessation of life support processes for organs and tissues: these are cadaveric spots, rigor mortis, cadaveric cooling, cadaveric desiccation and autolysis.
2. Phenomena of tissue experience - responses of dying tissues to external stimuli - electrical, mechanical and chemical. The more time passes from the moment of death, the less these reactions appear.
3. Late cadaveric phenomena - changes in the corpse that occur after the early cadaveric phenomena have completed their development, these include: rotting, mummification, skeletonization, fat wax, peat tanning. These processes are closely related to damage to corpses by animals and plants.

The appearance and development of cadaveric phenomena is influenced by many external and internal factors. Knowledge of their influence on the processes of post-mortem changes in a corpse is necessary, since without such knowledge it is almost impossible to use the dynamics of post-mortem processes to solve forensic and, accordingly, investigative problems.

The main internal factors of this plan are: the degree of fatness, age, the presence of serious chronic or acute diseases, the degree of alcoholization of the body and some others. These processes are significantly influenced by the cause of death and accompanying phenomena, such as blood loss, duration and severity of the agonal period, etc. The nature of clothing matters. External conditions that influence the development of post-mortem processes include ambient temperature, humidity, and the development of flora and fauna of the environment.

The nature and degree of influence of the factors listed above will be presented when describing specific post-mortem processes.

Early cadaveric phenomena

Cadaveric spots - areas of body tissue posthumously soaked in blood. Outwardly, they look like large area bruises. The color of cadaveric spots, violet-bluish or purple-blue, depends on many reasons, primarily on the color of the blood and its quantity.

Immediately after death, the skin of a human corpse is pale, perhaps with a slight grayish tint. Immediately after death, body tissues still consume oxygen from the blood, and therefore all blood in the circulatory system becomes venous. Cadaveric spots are formed due to the fact that after circulatory arrest, the blood contained in the circulatory system, under the influence of gravity, gradually descends into the underlying parts of the body, overflowing mainly the venous part of the bloodstream. Blood shining through the skin gives it a characteristic color.

To solve the issues of how long ago death occurred, the movement of the corpse, and others, it is necessary to understand the development processes of cadaveric spots. Cadaveric spots go through three stages in their development: hypostasis, diffusion and imbibition.

Hypostasis- the stage at which blood descends into the underlying parts of the body, overflowing their vascular bed. This stage begins immediately after circulatory arrest, and the first signs of coloration of the skin can be observed within 30 minutes, if there was no blood loss and the blood in the corpse is liquid. Clearly cadaveric spots appear 2-4 hours after death.

To determine the stage of development of cadaveric spots, the following technique is used: press on the cadaveric spot; if at the point of pressure the cadaveric spot completely disappears or at least turns pale, then measure the time after which the original color is restored. The fact of change (non-change) in the color of the cadaveric spot and the time of its restoration are the criteria by which the stage of development of cadaveric spots and, accordingly, the time of death are determined.

Cadaveric spots in the stage of hypostasis completely disappear when pressed due to the fact that the blood only fills the vessels and easily moves through them. After the pressure stops, blood fills the vessels again after some time, and the cadaveric spots are completely restored. When the position of the corpse changes at this stage of development of cadaveric spots, they completely move to new places, in accordance with which parts of the body have become underlying. The hypostasis stage lasts on average 12-14 hours.

Diffusion stage- the next stage of the formation of cadaveric spots, it is also called the stasis stage. As a rule, pronounced manifestations characteristic of this stage are noted 12 hours after death. At this stage, the overstretched walls of the vessels become more permeable, and an exchange of fluids begins through them, which is uncharacteristic of a living organism.

Lymph and intercellular fluid gradually penetrate through the walls of blood vessels into them and mix with the blood, they contribute to hemolysis(disintegration, dissolution) of red blood cells. The liquid part of the blood also penetrates the walls of blood vessels and permeates the surrounding tissues. As a result of these processes, the blood thickens. In the diffusion stage, when pressure is applied to cadaveric spots, they do not disappear completely, but only turn pale, and after a while they restore their color.

Full development of this stage occurs within 12 to 24 hours.

When the position of the corpse changes during this period of time, the cadaveric spots partially move to those parts of the body that become underlying, and partially remain in the old place due to the saturation of the tissues surrounding the vessels. Previously formed spots become somewhat lighter than they were before the corpse was moved.

Stage of imbibition- the third stage of development of cadaveric spots. During this period, a mixture of lymph and intercellular fluid leaked from blood vessels permeates the skin, subcutaneous fat and other body tissues in the underlying sections. This process of tissue saturation with blood begins already at the end of the first day after death and completely ends after 24-36 hours from the moment of death. When you press on a cadaveric spot that is in the stage of imbibition, it does not turn pale. Thus, if more than a day has passed since the death of a person, then when such a corpse is moved, the cadaveric spots do not change their location.

The division of the process of changing cadaveric spots into stages is quite arbitrary, since these phases do not have clear boundaries, especially at the borderline moments of time around 12 and 24 hours after death, when processes characteristic of both the previous phase and the subsequent one occur simultaneously.

As mentioned above, a variety of information can be obtained from cadaveric spots. In particular, the unusual color of cadaveric spots may indicate the cause of death. If a person died with significant blood loss, then the cadaveric spots will be very weakly expressed. When dying from carbon monoxide poisoning, they are bright, red due to the large amount of carboxyhemoglobin; when exposed to cyanide, they are cherry red; when poisoning with methemoglobin-forming poisons, such as nitrites, cadaveric spots have a grayish-brown color. On corpses in water or a damp place, the epidermis loosens, oxygen penetrates through it and combines with hemoglobin, this causes the pinkish-red tint of corpse spots along their periphery.

Changes similar to those that occur at the surface of the skin also occur in the internal organs; these changes are studied during the opening of body cavities and internal organs. It should be noted that cadaveric spots in the head area, especially the scalp, can be mistaken for a hematoma.

Sometimes, against the background of cadaveric spots, post-mortem hemorrhages, called by doctors, can be found ecchymoses. Externally, they look like rounded areas, slightly protruding above the surface of the skin, up to 5x5 mm in size, and usually appear 5-6 hours after death. They are more typical for the corpses of young people who died from drowning in water, from hanging in a noose, from alcohol poisoning, etc. They should not be confused with intravital hemorrhages.

In those places where the skin of the corpse was in close contact with hard protruding areas of the surface on which it was located, the relief of this surface is clearly visible in the form of whitish areas of skin that are not soaked in blood. In the practice of forensic medicine, there are cases where, based on such patterns on cadaveric spots, the surface on which the corpse was located at the time of the formation of cadaveric spots was identified.

As noted above, one of the main methods for studying cadaveric spots is the method of applying pressure to the cadaveric spot. Pressure is usually applied in the interscapular or lumbar areas, retreating 2-3 cm from the midline. If a corpse is found in a position other than on the back, the most underlying areas of the cadaveric spots are examined. The pressure is produced by a special dynamometer, and in its absence, by the palmar surface of the nail phalanx of the index finger. In this case, the pressure force should be 2 kg per 1 sq. cm, pressure duration 3 seconds. These conditions must be strictly observed, since failure to comply will lead to an error in the calculations. The time of restoration of the color of the cadaveric spot is recorded using a stopwatch. After pressing on the cadaveric spot, the corpse must be rotated so that the place of pressure takes its original position, i.e. one in which a cadaveric spot was formed.

Assessing cadaveric spots over time, taking into account external and internal conditions influencing the development of this post-mortem phenomenon, allows us to solve a number of forensic issues.

1. Cadaveric spots are an unconditional sign of death. The presence of cadaveric spots indicates that the person is dead and not in some state such as lethargic sleep, coma, etc.
2. Cadaveric spots indicate the position of the corpse after death and a change in this position.
3. The dynamics of the development of cadaveric spots is one of the post-mortem processes that makes it possible to judge the time of death.
4. The degree of severity of cadaveric spots gives grounds to judge the speed of death (the duration of the agonal period).
5. The color of cadaveric spots in some cases allows us to judge the possible cause of death, as well as the conditions under which the corpse was found after death.

Rigor mortis. Rigor mortis is usually called a condition of the muscles of a corpse, in which they become denser and fix parts of the corpse in a certain position. A numb dead body seems to become stiff.

Immediately after death, all the muscles of the human body relax, lose their inherent elasticity during life, the face takes on a calm appearance, which is probably where the word deceased comes from.

The process of rigor mortis develops simultaneously in all skeletal and smooth muscle muscles. But its manifestation occurs in stages: first in small muscles - on the face, neck, hands and feet, then rigor becomes noticeable in large muscles and muscle groups. Pronounced signs of rigor are observed 2-4 hours after death. The increase in rigor mortis occurs up to 10-12 hours from the moment of death. For about 12 more hours, rigor remains at the same level. Then it starts to disappear. Forensic scientists use the term resolution of rigor mortis to denote the process of gradual disappearance of rigor of the muscles of a corpse.

Rigor mortis is assessed by forensic doctors during external examination at the place where the corpse was found and in the morgue. The assessment is made using a three-point system (weak, moderate, good) sequentially in each muscle group. The principle of uneven manifestation of rigor mortis in large, medium and small muscles is the basis for determining the duration of death by rigor mortis.

Rigor mortis can be resolved (broken) artificially by applying physical effort (for example, bending and straightening the numb limb). If rigor mortis is affected in this way within a period of up to 8-10 hours from the moment of death, then rigor mortis will be partially restored in the future in the disturbed muscles. In cases where rigor mortis is exposed after this period of time, it does not recover. This pattern is used to resolve the issue of possible movement of the corpse.

Rigor mortis develops not only in skeletal muscles, but also in the smooth muscles of internal organs. As a result, some post-mortem processes occur in the internal organs, which must be taken into account when examining corpses. Immediately after stopping, the heart is in a relaxed state, then, as muscle rigor increases, its muscles tense, especially in those parts where it is more pronounced, for example, in the left ventricle, blood is squeezed out of the cavities of the heart under the influence of contracting muscles. With painful changes in the myocardium, the heart muscles almost do not stiffen. Post-mortem changes associated with the formation of rigor mortis also occur in other internal organs.

The process of development of rigor mortis is significantly influenced by various external and internal factors. At elevated ambient temperatures (above +25° C), rigor mortis develops faster; accordingly, at lower temperatures this process slows down. Rigor rigor grows faster in dry air, and slower in humid air. In persons with developed muscles, rigor mortis grows faster and reaches greater severity, and, conversely, in children, old people, emaciated and sick people, this cadaveric phenomenon forms slowly and is less pronounced. Rigor mortis develops more strongly with injuries and burns, large loss of blood, diseases of cholera, tetanus, and epilepsy. All these factors must be taken into account to avoid erroneous conclusions from the results of a rigor mortis study. These factors have the opposite effect on the resolution of rigor mortis. For example, at low temperatures, rigor develops more slowly, but also lasts longer; at elevated temperatures, it forms faster, but also resolves faster.

A muscle condition similar to rigor occurs when a corpse is exposed to elevated temperatures (more than 50°-60° C). In muscles exposed to heat, proteins, and along with them muscle fibers, contract, leading to muscle tension. And since the flexor muscle groups are more powerful than the extensor ones, the corpse as a whole takes on a characteristic pose, called the boxer’s pose.

The study of muscle rigor during an external examination of a corpse at the place of its discovery and in the morgue allows one to obtain information for solving the following important problems.

1. Rigor mortis is a reliable sign of death.
2. The dynamics of development and resolution of rigor mortis makes it possible to resolve the issue of how long ago death occurred.
3. Sometimes the dying posture of a corpse, preserved by rigor mortis, makes it possible to judge the position of a person’s body at the time of death and suggest the cause of death.

Cooling the corpse. Normally, in a living person, the body temperature, measured in the armpit, ranges from +36.4° to +36.9° C. In the internal organs and tissues of the body, the temperature is 0.3-0.5 degrees higher. Constant temperature is ensured by thermoregulation processes. These processes stop after the regulatory activity of the central nervous system stops, and the temperature begins to decrease, trying to equalize the ambient temperature. However, it should be remembered that the body temperature at the time of death of a person can be higher than the specified norm by 1°, 2° and even 3° C due to infectious diseases, poisoning, overheating of the body and similar processes. In addition, according to some researchers, the temperature of a corpse can increase immediately after death by 1°-3° C. According to literature data, an increased body temperature of corpses in the first hour after death is observed in approximately 15% of cases.

Naturally, the rate of cooling of a corpse depends on many external and internal factors. First of all, it depends on the ambient temperature. The lower it is, the more intense the cooling of the corpse. If the ambient temperature is higher than body temperature, the corpse will not cool down at all. Air humidity also affects the cooling process; in a damp, cold environment, cooling is more intense. The presence and condition of clothing plays a big role. The temperature, thermal conductivity and heat capacity of the substance on the surface of which the corpse is located are important. Ventilation of the room, exposure to direct sunlight, etc. play a role.

Of the internal factors, the most important are: fatness (development of subcutaneous fat), massiveness and size, age (children's corpses and the corpses of elderly people cool faster). People who are exhausted and weakened by the disease, who have lost a lot of blood, lose their temperature more intensely after death.

It must be remembered that when a person is in sub-zero temperatures, the surface parts of the body can be significantly cooled, “icy” to the touch, while the temperature inside the person’s body will be quite high.

Thus, by studying the process of cooling a corpse, one can obtain useful information for solving a number of issues.

1. A decrease in body temperature in the rectum below +20° C is a reliable sign of death.
2. By changing the temperature of the corpse, you can determine the duration of death.
3. If an elevated temperature is detected in a corpse in the first hour after death, assumptions can be made about some of the circumstances preceding death.

Corpse desiccation. Immediately after death, the process of cadaveric desiccation begins. From the most moistened and unprotected areas of the body surface, liquid evaporation begins, which leads to drying and thickening of the tissue, these areas of the tissue darken. Such areas of the body are those in which the epidermis is damaged - the surface layer of the skin, as well as the surfaces of the mucous membranes exposed to the external environment, areas of transition from the mucous membranes to the skin, areas of loose epidermis, areas of the epidermis affected by certain skin pathologies. Specifically: the first to dry out on a corpse are the intravital and postmortem injuries, the eyeballs, the scrotum and head of the penis in men, the labia in women, the area of ​​the red border of the lips, the tip of the tongue protruding from the mouth, and later the tip of the nose, ears, fingertips and etc.

The time characteristics of the appearance of drying out depend primarily on the temperature of the air surrounding the corpse and humidity. Under normal room conditions, drying becomes noticeable after 2-3 hours on the corneas and white membranes of the eyes, if they are open. Drying of the corneas looks like clouding; such changes are called “Larchet spots.” After 6-12 hours, the exposed areas of the eyeballs become yellowish-gray.

In windy, dry weather, outdoors, the first signs of clouding of the corneas of open eyes are observed within an hour after death.

Under appropriate conditions, the drying process of newborn corpses occurs very quickly. According to some authors, up to 100 grams of liquid per day can evaporate from such a corpse, which can be very noticeable on a small body.

Areas of the epidermis damaged postmortem (so-called parchment spots), as well as areas around the red border of the lips, areas of pathologically altered epidermis after drying can have a reddish-brown color, thereby simulating intravital damage. However, upon careful examination of such areas of skin, differences are easily detected.

The process of drying a corpse can continue until almost complete evaporation of moisture from it, in this case they speak of mummification of the corpse. This phenomenon will be discussed below.

Signs of cadaveric desiccation are analyzed by forensic scientists to determine the time of death, as well as for other purposes.

Cadaveric autolysis. Cadaveric autolysis, like previous postmortem changes, is considered by most authors to be an early cadaveric phenomenon; some assess this phenomenon as a supravital reaction. The essence of the process is that disorganized tissue enzymes after death continue their effect on surrounding structures, destroying them to one degree or another. Signs of enzyme exposure are found mainly during autopsy. Based on them, as well as on other cadaveric phenomena, the question of how long ago death occurred is decided.

Phenomena of tissue experience

The second group of phenomena studied on a corpse in order to determine the duration of death are phenomena associated with the survival of individual tissues of the body. After the death of the organism as a whole, individual tissues are still able to exhibit their functions. To determine the time of death, the ability of these tissues to react in response to a particular irritation is used. In particular, muscles contract in response to electrical or mechanical stimulation, and some tissues respond to chemicals. Such tissue reactions are called supravital.

Muscle response to electrical stimulation. If needle electrodes are inserted into the opposite ends of any muscle of a corpse, for example the biceps, and voltage is applied, then a fresh corpse will experience contraction of this muscle to one degree or another. The force of contraction is assessed on a three-point scale. A strong contraction is observed up to 2-2.5 hours after death, an average contraction up to 2-4 hours, a weak contraction up to 4-6 hours after death. The technique requires compliance with certain conditions: the use of a current of a certain voltage and strength. The good thing about the technique is that the influence of external conditions on its results is insignificant.

Muscle response to mechanical stress. When struck by a hard object with a limited striking surface, for example, a metal stick, a swelling is formed on a muscle (say, the biceps) of a fresh corpse, which is called an “ideomuscular tumor.” The presence of such a muscle reaction to mechanical impact indicates that a short time has passed since death. Visually, such a reaction can be detected within a period of up to 6 hours from the moment of death. In the period from 6 to 11 hours, the reaction can only be detected by feeling (palpating) the site of impact. At a later date, the reaction to the impact will be negative, which will be reflected in the formation of an indentation at the site of the impact. External conditions and the cause of death do not have a significant impact on this reaction.

On fresh corpses, muscles react to mechanical irritation of tendons. When a tendon is struck, the corresponding muscles contract. This looks similar to how neurologists test tendon reflexes in patients by tapping their knees and Achilles tendons. A positive reaction to tapping on all tendons indicates that no more than 1.5-2 hours have passed since death. If only some muscles reacted positively, then about 6-8 hours have passed.

The reaction of the pupils to the administration of atropine and pilocarpine. After death occurs, under the influence of internal biomechanisms, the pupils of the eyes dilate, then narrow for about 2 hours, then dilate again.

The pupils react to the administration of atropine and pilocarpine (as well as some other chemicals), dilating or contracting, and the strength of the reaction is inversely proportional to the time of death, which is used to determine the time of death. In the period up to 11 hours after death, a double reaction is observed, namely, from the injection of atropine, the pupil dilates, and after the injection of pilocarpine it narrows. A separate reaction (narrowing or expansion) is detected on average up to 24 hours from the moment of death. After 24 hours, the pupils do not respond to the administration of atropine and pilocarpine.

Late cadaveric changes

In addition to the early cadaveric changes and tissue survival phenomena described in the previous section, a number of processes develop on the corpse, which differ from the first two groups in their later appearance, which is why they were called late cadaveric phenomena.

Late cadaveric phenomena include: rotting, mummification, skeletonization, fat wax, peat tanning, as well as damage to corpses by animals and plants.

In general, all late cadaveric phenomena are characterized by a strong dependence on the conditions of the corpse’s location and a large scatter in the time characteristics of their occurrence, which significantly complicates their use for solving forensic medical issues.

All late cadaveric phenomena, to a certain extent, can be divided into two groups: first - destructive, second - preservative. On one corpse, different cadaveric phenomena can simultaneously develop, for example, mummification and rotting, if parts of the corpse are in different conditions.

Rotting. Rotting belongs to the group of destructive cadaveric phenomena. It develops as a result of exposure to microorganisms on the tissues of a corpse. Under their influence, tissues are destroyed into simpler biochemical and chemical components. As a result of the formation of substances such as ammonia, hydrogen sulfide, methyl mercaptan, ethyl mercaptan and some others, a characteristic putrid-cadaverous odor appears.

Putrefactive bacteria are common inhabitants of the human intestine. There they (during human life) are in balance with other microorganisms and vital processes of the body, perform their functions and, under normal conditions, do not go beyond the boundaries of their distribution areas. After the death of a person, everything changes: many types of putrefactive bacteria begin to uncontrollably multiply and spread in the human body, this leads to decay of the corpse.

Initially, putrefaction develops most strongly in the large intestine, this is accompanied by the formation of a large amount of gases, which accumulate in the abdomen. Intestinal bloating can be noted within 6-12 hours after a person’s death. Then signs of decay appear in the form of a dirty green color, first in the right iliac region, then in the left. This coloring occurs due to the formation of sulfhemoglobin from blood hemoglobin and released hydrogen sulfide. Under room conditions, putrefactive staining appears in the iliac areas on the anterior abdominal wall by the end of the second day. The rot then spreads through the blood vessels, mainly veins, to other areas of the body. This process is accompanied by the appearance of the so-called putrefactive venous network - a clearly visible dirty green pattern of veins. Signs of a putrefactive venous network are observed 3-4 days after death.

Also, on the 3-4th day of the development of putrefaction, an increase in the accumulation of putrefactive gases in the subcutaneous fat and other tissues is noted. Due to this, the corpse bloats, the so-called putrefactive emphysema. Body parts increase sharply in size: abdomen, chest, limbs, neck, nose, lips, in men - the scrotum and penis, in women - mammary glands. Bloody discharge is observed from the natural orifices of the body; this should be differentiated from the manifestation of injury. After 4-5 days, blisters appear on the surface of the skin due to its delamination, filled with a foul-smelling reddish-brown putrefactive liquid. Partially exfoliated epidermis can be displaced due to mechanical action, and the reddish dermis, the underlying layer of skin, becomes visible. Such manifestations of rotting mimic skin burns. On days 6-10, the epidermis completely peels off and can be easily removed along with nails and hair. Subsequently, through the damaged areas of the skin, the accumulated and newly released putrefactive gases leave the corpse, the size of the corpse and its parts decreases. The processes of decay soften and disorganize tissues - the so-called putrid melting of a corpse. As a result, the bones are exposed in places, especially in places where they are covered with a small amount of soft tissue. Complete putrefactive decay of the soft tissues of a corpse (skin, fatty tissue, muscles, some components of internal organs, etc.) under conditions suitable for decay can occur in 3-4 weeks. After this period, bones, ligaments, cartilage, and formations consisting of a large amount of connective tissue are preserved.

A corpse in a state of significant putrefactive changes is a very unpleasant sight. The presence of putrefactive tissue destruction, their greenish-dirty color, and fetid odor create the basis for a negative assessment of the possibilities of productive forensic research of such corpses. It seems that it is impossible to establish the cause of death, the mechanism of its occurrence and resolve other issues regarding such a corpse. However, this is not always the case. On putrefactively altered corpses, it is possible to detect and determine damage, traces, some well-defined pathological processes, for example, cardiosclerosis, atherosclerosis, etc. Therefore, any degree of putrefactive decomposition of a corpse is not a basis for refusing to order and conduct a forensic medical examination of the corpse.

Skeletonization. In the absence of natural and artificially created processes preserving the corpse, such as mummification, fat wax, peat tanning, exposure to salt solutions, freezing, etc., the process of decay turns into the process of skeletonization. The essence of this post-mortem phenomenon is that through putrefactive melting and as a result of the eating of the tissues of the corpse by insects, the soft tissues of the corpse completely disappear from the bone base. Clearly visible signs of skeletonization can be noted on the corpse after 1 month of the corpse being in appropriate conditions. Almost complete skeletonization (only bones, ligaments and cartilage remain) can occur in 3-6 months, and after a year the skeleton disintegrates into individual bones, as most of the ligamentous apparatus is destroyed.

Conditions that accelerate the decay process naturally accelerate the skeletonization process. However, the greatest importance for the complete cleansing of skeletal bones from soft tissues is the presence of a large number of insects and other types of animal carrion eaters, complementing and replacing each other in the destruction of the soft tissues of the corpse.

Of the insects, the most active in this regard are flies and beetles of several species. Rodents, in particular rats, destroy the soft tissues of a corpse at the initial stage of decay and even before its signs appear. Parts of the corpse can be chewed by wolves, jackals, cats and dogs. There have been cases of birds damaging corpses. The intense impact of animals on a corpse accelerates its skeletonization.

In an aquatic environment, a corpse can be actively eaten by aquatic animals, primarily various crustaceans, as well as fish.

Plants growing in Russian latitudes usually do not have a significant effect on the corpse. Only the development of certain types of mold is noted on the corpse, and when the corpse is in the open ground, some plants can grow through it. The study of plants in the bed of a corpse sometimes makes it possible to determine how long ago it was located at the place of discovery.

Under certain conditions where a corpse is located, its tissues are subject to the preservative influence of environmental factors.

Mummification. Mummification is the process of post-mortem changes in the tissues of a corpse, during which moisture almost completely evaporates from them. In this case, the tissues become denser, decrease in volume, the weight of a completely mummified corpse is no more than one tenth of the original one.

For the development of mummification, a number of conditions are necessary, in particular: good ventilation of the location of the corpse; high temperature, although mummification can also take place at room temperature under conditions of very good ventilation and dry air; low air humidity. Under the most favorable conditions, complete mummification of a human corpse of average build can occur in 4-6 months, while the average time for complete mummification is indicated by different authors within 6-12 months. Partial mummification can be detected on corpses after 1-2 months. The corpses of children and people with a low content of subcutaneous fat mummify faster than others.

Under appropriate conditions, mummified corpses can be preserved indefinitely without undergoing changes, so determining the age of death from a corpse whose mummification has ended is extremely difficult.

It should be noted that forensic medical examination of mummified corpses makes it possible to resolve a number of issues related to the occurrence of death. In particular, dried corpses retain signs of damage, traces of imposition, and some traces of painful changes in organs and tissues. Therefore, such corpses can and should be carefully examined.

Fat wax. Fat wax is a cadaveric change related to late cadaveric phenomena of the preservative type; its second name is saponification. The main conditions for the formation of fat wax are high humidity in the environment where the corpse is located and minimal air access. Saponification develops in water, in dense and moist soils and in other similar conditions.

The essence of the process is the gradual decomposition of the fat contained in the corpse and the washing out of some of the resulting derivatives. The remaining water-insoluble fatty acids combine with alkali and alkaline earth metal salts, forming a substance called fat wax. Depending on which metal salts the fatty acids are combined with, the fat wax can be either a gelatinous substance of a dirty gray color or a dense substance of gray-white color with a greasy sheen.

Various authors indicate that they observed the first signs of saponification of the tissues of a corpse from 25 days to 3 months after death. Complete saponification of a corpse occurs no earlier than 6-12 months on the corpses of adults; on the corpses of children it is possible a little faster.

The study of saponification processes only tentatively allows us to speak about the duration of death.

Peat tanning. Peat tanning is a preserving late cadaveric phenomenon, the essence of which is the tanning (compaction) of tissue under the influence of an acidic environment. In forensic medical practice, corpses that have undergone such a change are even less common than corpses in a fat wax state. Mostly such finds were made in peat bogs, where body tissues of deceased people were exposed to long-term exposure to humic acids. Under the influence of these acids, the skin of corpses and internal organs become denser and acquire a dark color. Under the influence of acids, calcium is washed out of the bones and they become soft and flexible. Peat-tanned corpses last a very long time. It is possible to detect and study damage on such corpses.

Various authors have included several more post-mortem processes in the group of preservative cadaveric changes. Salting corpses - a phenomenon in which concentrated solutions of salts or salts in dry form act on a corpse; by their influence they stop the processes that destroy the corpse. There is literature data indicating the possibility preservation of corpses when they get into oil. Formalin, some alcohols and other chemicals have a preservative effect on biological tissues. Low temperature- one of the factors that can preserve corpses unchanged for a long time. The corpses of prehistoric animals are known to have been preserved to this day in permafrost.

The conditions under which the corpse is located from the moment of death until the moment of its examination may change. And then, instead of some post-mortem processes, others begin to develop. In practice, there are common cases when different conditions simultaneously act on a corpse and, accordingly, its different parts change differently. For example, a corpse located on the soil, on the ground side, rots and is destroyed by corpse-eating insects, and at this time the parts of the body facing upward are mummified due to ventilation and drying.

If a corpse with signs of rotting begins is placed in a dry, well-ventilated place, then the decay processes are suspended and mummification develops. The decay process also stops when the ambient temperature drops below 0° C. Conversely, a corpse preserved in some way, for example, frozen in the cold season, can begin to rot and be destroyed by animals when it warms up.

§ 3. Establishment of limitation of death

Determining the time of death is of great importance for establishing the circumstances of the death of a person who died in conditions of non-obviousness. Such information is even more significant when solving and investigating murders.

Time of death a person can be recognized in different ways. It may be indicated by elements of the situation at the place where the corpse was discovered, witness testimony, etc. However, in any case, both in the absence of any information and in its presence, a forensic medical determination of how long ago the death occurred must be carried out.

When working with corpses that do not show signs of decay, i.e. When examining fresh corpses, forensic methods for determining the duration of death should be applied as early as possible, immediately at the place where the corpse was discovered. This must be done because the accuracy of establishing the duration of death is higher, the less time has passed since death. For example, if you determine the time of death 2-3 hours after its occurrence (which is realistic when examining a corpse at the place of its discovery), then you can establish it with an accuracy of 20-30 minutes, and if you do this after 1-2 days (when examining corpse in the morgue), then the accuracy at best will be 8-10 hours. It is quite obvious that with the first answer, it is much easier to solve and investigate a crime than with the second.

Possibility of establishing the time of burial of a corpse. Investigative authorities in the process of work have to deal with two possible options for studying buried corpses. The first is that the corpse is buried officially, in a coffin; the time of its burial and the events preceding it are known; in such cases, as a rule, there is no need to determine the age of burial. The second option is that the corpse was buried secretly, is in the ground without a coffin, the time of its burial is unknown or known only approximately and requires identification.

Let us consider the process of post-mortem changes in a corpse in relation to the second version of investigative situations. As in the study of corpses located on the surface of the earth, the age of burial is determined by the dynamics of post-mortem changes in the corpse.

The decomposition processes of buried corpses in most cases proceed more slowly than corpses located on the surface of the earth or indoors. This is explained by a number of reasons, among which the following are significant: a lower and more stable temperature for preserving the corpse than the temperature indoors or outdoors in the warm season, especially when the corpse is buried deeply (over 1-1.5 m); absence of most corpse-eating insects (primarily flies); slow bacterial decomposition of the corpse due to low temperature and lack of oxygen. These factors apply to all types of soils. The nature of the soil, its humidity, porosity, acidity and other features also influence the nature and rate of development of post-mortem destruction of the corpse.

The depth of the burial is of great importance. If the corpse is covered with only 20-30 cm of soil, then the intensity of its decomposition is not much different from that on the surface of the earth, and in soils with a large number of rotted and decaying plants inhabited by many insects, the post-mortem decomposition of the soft tissues of corpses can be even more intense, than on the surface of the earth, due to the high content of bacteria and the accessibility of corpse tissue to corpse-eating insects. As the depth of burial of corpses increases, the effect of these factors of corpse decomposition decreases.

Corpses buried at a depth of 1.5-2 m undergo pronounced putrefactive changes by the end of the first year, the process of skeletonization appears in the head and limbs, the lower jaw is not yet separated from the skull, the chest and stomach are sunken. Over the next 1-2 years, soft tissues are almost completely destroyed, only individual sections of them can be detected, ligaments and cartilage are mostly still preserved. After 5 years of the corpse being in the ground, the ligaments and cartilage almost completely disappear. In dry soils, after 10 years of burial, pronounced drying of the skeletal bones is observed. Further residence of the skeleton in the ground leads to a significant decrease in bone mass, their porosity and fragility increases.

Changes in corpses located in the ground allow us to only roughly judge the age of burial, therefore, in addition to purely forensic data, when resolving such an issue, it is necessary to try to obtain information from an investigative and operational plan.

§ 4. Features of external examination of a corpse in various types of death

Inspection of the corpse at the place of its discovery. In forensic science, the scene of an incident is a section of terrain or premises within which traces of a crime were found. The boundaries of the scene of the incident can be quite clear in cases where the events unfolded strictly in one place, for example, in the case of a crime (for example, murder) being committed in an apartment in an apartment building, the scene of the incident will be limited to the boundaries of this apartment. In large-scale incidents, such as a train or plane crash, the accident site can cover an area of ​​tens of hectares of land.

Clear natural boundaries of the scene of the incident may not always be established; in such cases they are established artificially, for example, with a radius of two hundred meters around a corpse found in a wooded area. There may be several crime scenes in one criminal case. For example, a murder occurred in an apartment, then the corpse was taken out and hidden outside the city. In this case, we will highlight two locations of the incident. More often we encounter cases where the place where a corpse was found is the scene of an incident (crime).

Inspection of the scene of the incident - an urgent investigative action consisting in the direct perception of the territory in which a particular crime was committed, with the aim of retrospectively understanding the essence of the event that occurred, and also carried out to detect, record and seize material and other evidence as evidence of what happened.

When conducting an inspection of the crime scene, the investigator (the main person during the inspection) must obtain information of varying degrees of reliability to answer the following questions.

1. Is the location where the body was found a crime scene?
2. What happened at the crime scene?
3. Number of persons involved in the crime?
4. Motives of the criminals?
5. When and for how long did the crime occur?
6. What is the relationship between the offender and the victim?
7. Who committed the crime?

Answers to questions can be obtained by examining and analyzing the situation in which traces were discovered and examined, examining the corpse, by obtaining information from relatives, neighbors, witnesses and other persons, by analyzing the information received from the perspective of the experience of participants in the inspection of the scene and other methods.

In urgent cases, an inspection of the scene of the incident may be carried out before the initiation of a criminal case. In these cases, if there are grounds for it, a criminal case is initiated immediately after an inspection of the scene of the incident.

Thus, an inspection of the scene of an incident is the only investigative action for which the law makes an exception and allows it to be carried out before the initiation of a criminal case.

The procedure for carrying out the inspection is regulated: there is an indication that, if necessary, the investigator can invite a specialist of the relevant profile to participate in the inspection of the scene of the incident. However, the same article says that, if necessary, the investigator independently performs during the inspection: measurements, photography, filming (which in today’s world is equivalent to video filming), drawing up plans and diagrams, making casts and impressions of traces. The investigator can, if necessary, inspect items and documents found during the inspection of the scene of the incident directly at the scene of the incident; items that are appropriate to be seized are packed according to the appropriate rules.

The procedure for examining the scene of an incident with a corpse has been developed in relation to various situations. The inspection should be carried out methodically using one of the recommended systems.

Theoretically, there are many options, methods and techniques for inspecting the scene of an incident. The choice of one or the other depends on many circumstances. First of all, it is determined by the nature and area of ​​the territory that is to be inspected, secondly by the nature of the crime, as well as other circumstances.

The choice of methodology for examining the scene of the incident is carried out during a general familiarization with the scene of the incident. At this stage, the investigator determines the boundaries of the crime scene and key objects. One of the key objects is a corpse. In the process of familiarizing yourself with the scene of the incident, it is advisable to take orientation and overview photographs and make a video recording. For most cases, it is considered optimal the beginning of the inspection of the crime scene from the corpse. With this inspection procedure, care must be taken to preserve traces distant from the nodal point. In most cases, it is advisable to move away from the corpse in a spiral. However, in any direction of movement during an inspection of the scene of an incident, it is necessary to observe the rule of two stages - first, a static inspection of a unit, section or the entire scene of the incident is carried out, and then a dynamic one. In the first stage, the movement of objects and their parts is excluded, in the second - objects and their parts can be moved in order to more fully examine them.

When examining a corpse at the scene of an incident, three main versions about the nature of the incident must be put forward and, if possible, verified, namely, murder, suicide, or an accident. It is unacceptable, even under the most seemingly obvious circumstances, to deliberately exclude any of these versions. Practical experience shows that, trying to reduce labor costs for inspecting the scene of an incident, the participants in the inspection, and, first of all, the investigator as the person responsible for this action, try to concentrate their efforts on working on one of these versions. In the future, if new circumstances arise that exclude the initially preferred version, the opportunity to fully carry out work on other versions will be irretrievably lost. Accordingly, the chances of qualitatively understanding what happened will be lost. It should be noted with regret that at present, when examining corpses at the scene of their discovery, law enforcement officers give preference to versions of suicide or an accident, which leads to an increase in the number of latent murders, and, accordingly, impunity for killers.

Immediately upon arrival at the scene of the incident, the forensic physician must make sure that everything necessary to save the life of the deceased has been done, and that it is no longer possible to help the deceased. Such actions of the forensic doctor are especially important in cases where there were no doctors at the scene of the incident before him. If, at the time of his arrival at the scene of the incident, there was an emergency medical team there, then the forensic physician only ascertains death, studying the presence of its reliable signs.

When examining a victim, the first thing to check is the person’s breathing and heartbeat. Breathing is most accurately determined using a phonendoscope in the area of ​​the jugular fossa on the front surface of the neck in its lower part. The presence of cardiovascular activity is checked by palpating the pulsation in the area of ​​the carotid arteries on the left or right side of the neck, or in the area of ​​​​other large arteries lying close to the surface of the body.

As the earliest signs of death, indicating irreversible processes in the central nervous system, it is necessary to study the following: Beloglazov’s sign - when the eyeball is compressed on both sides in a dead person, the pupil changes its shape, becomes oval or slit-like instead of round, in a living person there is no such phenomenon observed; corneal and conjunctival reflexes are checked by touching the cornea of ​​the eye with the edge of a sheet of paper or the edge of a piece of fabric, etc., while in a living person a reaction of closing the eyelids is observed, in a dead person this reaction is absent; reaction of the pupil to light - in a living person the pupil reacts to light by constriction (it is better to use a flashlight to illuminate the pupil), in a dead person the pupil does not react to light.

When people are found to be hypothermic, the above tests may be difficult to perform. In these cases, the method of determining the temperature in the rectum is indicative. A decrease in this temperature below +20° C is a reliable sign of death.

Having not identified reliable signs of death in the victim or having detected at least weak signs of life, the forensic physician who arrived at the scene of the incident is obliged to make every effort to carry out resuscitation measures, continuing them until the arrival of emergency medical services.

Immediately before examining the corpse, it is necessary to photograph it. Practice shows that it is better if the corpse is photographed by a forensic specialist with the participation of a forensic physician. In this case, photographs will be taken from the right directions and important details will not be missed. Photography should be carried out from four sides in natural light; if natural lighting is not enough, then preference should be given to photographing under lighting from constant light sources of at least two. The worst option is photographing a corpse with flash.

Before photographing a corpse, it is necessary to mark the area adjacent to it with special marking and scaling means (plates with numbers and letters, arrows, scale rulers, etc.).

In parallel with photographing, it is advisable to video record both static elements of the crime scene, including the corpse, and the dynamics of the actions of members of the investigative team in relation to these objects. Video recording of the corpse must be done from at least two sides; it is advisable that there are no unfixed surfaces of the body of the deceased person. For video shooting, you need professional-grade equipment with the ability to capture macro- and micro-objects.

According to the rules mentioned above, in responsibilities of a medical specialist in the field of forensic medicine (or medical expert) when examining the scene of an incident includes:

• 1) identifying signs that allow us to judge the time of death, the mechanism of injury, and other circumstances important to the case;
• 2) consulting the investigator, and through him other participants in the inspection, on issues related to the examination of the corpse at the place of its discovery and its further examination;
• 3) providing assistance to the investigator in detecting, recording, seizing and packaging traces of biological origin;
• 4) identifying and communicating to the investigator the features of a particular case that are relevant to the case;
• 5) giving explanations regarding all actions carried out by him.

When examining a corpse at the place of its discovery (at the scene of the incident), the forensic physician is obliged to establish, show to the investigator and formulate verbally for recording in the protocol the following information about the corpse (given in the order in which it should be obtained when examining the corpse):

• 1) a description of the posture of the corpse, including the position of the head and limbs, as well as the relative position of the corpse and other objects at the scene of the incident;
• 2) a description of the objects located on the corpse, directly next to it and under it, including the condition of the surface on which the corpse is located (the corpse bed);
• 3) a description of the clothing, including its condition, dirt, damage, as well as items in the pockets, it should be noted that clothing cannot be removed, but can only be unfastened and moved;
• 4) characteristics of a person’s gender, age, appearance (such as the development of external sexual characteristics, the severity of wrinkles, folds, the condition of visible teeth, physique, signs of appearance, individual characteristics of the body structure, etc.);
• 5) the condition of areas of the body surface, including natural openings, mucous surfaces, etc.;
• 6) the presence and state of early cadaveric phenomena (the degree of cooling of closed and open areas of the body; body temperature measured by a thermometer; the presence, location, color, phase of development of cadaveric spots, determined by pressing on them in accordance with the method; the degree of development of rigor mortis in different muscle groups; the presence and severity of drying out of body areas);
• 7) the presence and severity of tissue experience phenomena, such as electrical excitability of muscles, muscle reaction to mechanical impact, pupillary reactions. Such studies are carried out in cases where the time of death is unknown;
• 8) the presence and severity of late cadaveric phenomena, such as rotting, mummification, skeletonization, fat wax, peat tanning, as well as traces of exposure to animals, signs of pronounced moisture, etc.;
• 9) the presence of traces-impositions on the body of the corpse;
• 10) the presence of injuries on the corpse, their location, identifiable characteristics and other information about them, which can be obtained during inspection at the place where the corpse was found;
• 11) the presence and nature of odors emanating from the corpse;
• 12) identify and, if possible, transfer to the investigator for inclusion as material evidence various objects that are located in the injuries and natural openings of the corpse, but are weakly attached to the corpse and may be lost during its movement or transportation.

The study of post-mortem phenomena on a corpse during an inspection of the scene of an incident should be carried out twice: at the beginning and at the end of the inspection, first of all this concerns the measurement of the temperature of the corpse. In this case, it is necessary to measure the temperature of the air surrounding the corpse, and, if possible, its humidity.

Detection and removal of traces of biological origin is another important activity of the forensic scientist at the crime scene. Traces of biological origin in criminology and forensic medicine most often refer to traces of substances that originate from the human body or which are assumed to originate from a person. When searching for traces of this kind, substances originating from animals or plants, as well as derivatives of inanimate nature, similar in appearance to substances of biological origin, can be found.

More often than others, traces of blood, semen, saliva, urine, feces, vaginal discharge, hair, particles of body tissue, and other substances may be found at the scene of the incident. Corresponding animal tissues, plant particles, as well as synthetic and mineral substances may be similar to them.

At the scene of the incident there may be clearly visible traces of biological origin, most often these are traces of blood, especially in cases where the corpse has multiple injuries or damage in the area of ​​large blood vessels. The absence of traces of blood when there are injuries on the corpse most likely indicates that the damage was caused not in this place, but in another. With a rough massive mechanical impact on the human body, multiple well-defined traces of biological origin can be formed by other human tissues.

Detecting traces of biological origin is not difficult in most cases. A careful examination of the components of the crime scene will give a complete picture of such traces. It is necessary to note their location, shape, size, relative position and location in relation to the corpse, record them in photographs and videos, mark them on the plan and describe them verbally in the protocol. If they are well captured by photo and video, their description in the protocol can be made brief.

It is not necessary to remove all visible traces, which are present in large quantities. It is advisable to take only a few of them. If the traces are large, they can be partially removed. Traces should be extracted selectively in such a way that traces of all variants of appearance from different areas of the crime scene are included for laboratory research.

Items that carry traces of biological origin and the traces themselves must be packaged after preliminary drying in room conditions. If possible, drying should be avoided on heating devices and in places exposed to direct sunlight. Placing wet traces in plastic bags, jars and similar conditions entails their intensive decay at above-zero ambient temperatures. If it is possible to place traces of biological origin in a refrigerator with a negative temperature, then decay does not develop and they remain suitable for research.

From the point of view of procedural law, the rules for packaging material evidence with traces of biological origin do not differ from those for other material evidence.

Under certain conditions, the so-called consequences can be of great importance for solving problems of investigation. negative circumstances.

In relation to working with traces of biological origin at the site of discovery of a corpse (scene of an incident), negative circumstances should be understood as the absence of traces in situations where they should have been. For example, it has already been mentioned that the absence of blood or a small amount of it in the place where a corpse was found with significant damage indicates that bleeding from the injuries did not occur at the place where the corpse was found, but in another place and, therefore, the place where the corpse was found is not, in the full sense this word, a crime scene.

When fulfilling his duties to examine the scene of the crime, the forensic physician must not violate a number of rules that are aimed at preserving, if possible, of course, the unchanged appearance of the corpse and traces of biological origin. In particular, a forensic physician at the scene of an incident does not have the right to:

• 1) carry out research that violates the integrity of the organs and tissues of the corpse (cut, disconnect, etc.);
• 2) use probes to study wound channels;
• 3) introduce any substances onto the surface or into cavities and damage to the corpse;
• 4) perform other actions that change the corpse and the damage present on it;
• 5) influence traces of biological origin in such a way that this could lead to their loss.

Based on the results of the external examination of the corpse at the place of its discovery and the results of the process of identifying and recording traces of biological origin, the forensic physician can orally answer the following questions to the investigator.

1. What is the possible cause of death?
2. What is the approximate age of death?
3. Did the position of the corpse change after death?
4. Are there any injuries on the corpse, and, presumably, with what weapon were they caused?
5. Is the location where the body was found the place where the deceased person was injured?
6. What traces are there on the corpse, and what are they supposedly formed by?

If necessary and depending on the conditions of a particular case, the forensic physician can answer other questions of the investigator if they do not require complex additional research.

Features of examining a corpse at the scene of discovery in various types of death

For a high-quality inspection of the place where a corpse was found, it is important not only to construct a forensically correct examination and comply with all the requirements for this investigative action, it is also important to carry it out competently from the point of view of forensic medicine and its requirements for this investigative action. One of the requirements of forensic medicine for examinations of corpses and places of their discovery is the requirement for a differentiated approach to examination in cases of different types of death. Compliance with this requirement allows you to collect information as completely as possible at the scene of the incident to resolve the issue of the causes of death and the mechanisms of influence of the external factor that led to death. Therefore, we present some features of the inspection of the scene of the incident for various types of death.

In case of damage from blunt or sharp objects: it is necessary to describe in detail the nature of the damage, the relationship of the damage with traces of biological origin; make assumptions about possible instruments of injury and try to find these instruments; it is necessary to try to guess the mechanism of causing damage and, thereby, the mechanism of interaction between the victim and the offender; try to tentatively determine the time required for the offender to cause damage and the force applied; the possibility that not one, but several criminals acted.

In case of injury from motor vehicles: it is important to carefully describe the position of the corpse, its location in relation to the vehicle or its tracks; record the condition of clothing and marks on it; presence on the vehicle of traces of interaction with the victim’s body; the presence of traces of biological origin in vehicle tracks, etc.

In case of a railway injury: it is necessary to thoroughly study and describe the position of the corpse, the location of it and its parts in relation to the railway rails, embankments and other parts of the transport route; identify traces of biological origin along the highway in both directions from the corpse, establish the distance from them to the corpse; describe the presence of marks on the clothing of the corpse, their nature, etc.

In case of aviation injury: it is very important to clearly record the location of the corpses and their parts in relation to the aircraft and its parts; establish the relative position of body parts that could presumably belong to one person; record the location of body parts that can be identified by clothing, documents, biological characteristics or other data; the relative position of corpses and parts of corpses with similar injuries; the presence and location of traces of biological origin on parts of the aircraft and other features in accordance with the specific situation.

When falling from a height: it is necessary to record the position of the corpse and its location relative to the object from which it could presumably fall; the presence of traces on the corpse, especially uncharacteristic of the surface on which the corpse is located; the presence of damage on the corpse uncharacteristic of a fall on the surface on which the corpse is located; traces of biological origin on an object from which the deceased could have fallen, etc.

For gunshot injuries: it is necessary to study in detail the nature of the damage to the body and clothing; the presence of marks on clothing and on foreign objects in the area of ​​damage; the relative position of damage and traces of biological origin on objects at the scene of the incident; upon detection of an alleged instrument of injury, determine the presence of traces of biological origin on it, etc.

For mechanical asphyxia: you should pay attention to the presence of puffiness of the face; the presence of marks on the neck, face and chest, the presence of pinpoint hemorrhages in the membranes of the eyes; identify objects at the scene that could have been used to compress the neck or other parts of the body; establish the correspondence or inconsistency of the strangulation groove and the object used to compress the neck; location of cadaveric spots; presence and location of traces of biological origin, etc.

If drowning in water: identify the presence of objects that can hold the corpse on the water or objects that weigh down the corpse; the condition of the clothing and the presence of marks on it; presence and location of damage; location and severity of skin maceration; the presence of foam at the openings of the mouth and nose and some other signs.

In case of poisoning: conduct a thorough search for traces of damage from exposure to poison on the skin and clothing; look for marks on clothes and surrounding objects; determine the presence of vomit; identify empty containers that could contain poison; describe the condition of corpse stains, the presence of odors in the room, etc.

When exposed to low temperatures: describe the pose of the corpse; the condition of the surface on which the corpse is located; condition of the corpse's skin; nature of clothing; the presence of ice floes at the openings of the nose and mouth, near the eyes and some other features.

When exposed to high temperature: examine the condition of clothing, signs of burning and scorching; fix the pose of the corpse; localization, degree and extent of burns; the presence of unsmoked folds at the corners of the eyes; the presence of soot in the mouth and nose and other features inherent in various options for exposure to elevated temperature.

In case of electric shock: describe burns, melting and other damage to clothing; figures of lightning when struck by atmospheric electricity; presence of damage to objects surrounding the corpse; the presence of electrical marks on the skin; the presence of sections of electrical conductors that are open to parts of the human body and other signs.

When corpses of newborns are discovered: examine the means of packaging the child’s body, the nature of clothing, if any; presence of mechanical damage; umbilical cord condition; the presence of a child's seat and some other signs.

When examining the corpse of an unknown person: examine in detail and describe the clothes and objects found with the corpse; describe appearance, while following the rules developed for such cases; describe in detail the individual characteristics found on the corpse; photograph the corpse according to the rules of signal photography; if possible, fingerprint the corpse; carry out other actions aimed at collecting search and identification information.

If parts of a dismembered corpse are found: carefully describe all items used to package body parts; describe clothes; record the structural features of body parts; study and describe the nature of the damage, including the surfaces of separation; if possible, describe the appearance and fingerprint, carry out other necessary actions.

If you suspect a criminal abortion: describe the presence, location and size of traces of biological origin in combination with other traces; the presence of items that could be used to perform an abortion; signs of pregnancy; condition of the external genitalia; search for the fetus, its parts and placenta, and perform other actions.

In case of sudden death: determine the presence or absence of traces, including traces of biological origin, on furnishings; availability of medical documentation; establish the presence of injuries on the body and clothing, as well as other material and documentary evidence of sudden death.

In case of reasonable suspicion of death from a dangerous infectious disease (plague, smallpox, cholera, etc.): immediately report your suspicions to the investigator and take measures together with him to inform the heads of the nearest health authorities; close access to the place where the corpse was found; persons participating in the inspection should remain in place until the arrival of specialists from the anti-epidemic team and then follow the instructions of the senior officer of the arriving anti-epidemic service team.

Summing up and documenting the results of the inspection of the scene of the incident is an important stage in the work at the scene of the incident. At this stage, the investigator and other participants in the inspection analyze the collected data and evaluate how fully they managed to solve the assigned tasks. As a result of this analysis, omissions can be identified and corrected by re-examining key objects at the scene. In most cases, it is advisable to conduct a second cursory inspection of the scene. Taking into account the experience of an already completed inspection, you can discover previously unnoticed important details or take a fresh look at previously inspected areas of the scene.

Then the final version of the protocol is drawn up. The inspection report of the scene of the incident must be drawn up in at least two copies. The second copy (copy) must be sent to the forensic morgue along with the corpse.

The corpse from the place of its discovery must be sent to the morgue. In order to ensure the safety of the corpse before it is examined in the morgue, the investigator, with the participation of employees of territorial internal authorities, takes the necessary measures to pack it (it is advisable to use special technical means for this) and provide special transport. The use of passing transport is highly undesirable.

If a criminal case has not yet been initiated before the corpse is sent to the morgue, then the corpse is sent to the morgue with an accompanying document, from which it should be clear: where, by whom and for what purpose the corpse is sent. A copy (second copy) of the inspection report of the place where it was found, as well as all things found with the corpse and personal documents, must be sent with the corpse.

The equipment necessary for a forensic specialist to examine a corpse at the place of its discovery must be provided by health authorities.

Exhumation of corpses - removal of corpses from the ground - is carried out in cases where a human corpse was buried without its forensic medical examination, as well as in cases where the initial forensic medical examination of the corpse was carried out incompletely or new serious circumstances arose that require verification through research already buried corpse.

Exhumation is carried out only by order of the investigator.

When carrying out exhumation, a number of points must be taken into account:

• - the great age of the burial is not an obstacle to exhumation;
• - to carry out exhumation in a cemetery, permission from the regional sanitary-epidemiological station is required;
• - before exhumation, the burial place is clarified both according to documents and on the basis of witness testimony;
• - before starting to excavate the burial site, it is necessary to photograph and videotape the burial site;
• - photography and video recording must be carried out during the entire investigative action in compliance with all requirements;
• - when digging up a body (in a coffin or without it), you should pay attention to all objects that come across during the action; they may be related to the crime event;
• - when performing work, it is necessary to prevent damage from tools;
• - after removing the corpse from the grave or from the coffin, the body must be presented for identification;
• - in cases where the identity of the deceased cannot be identified or there are doubts about the identification made, an examination to identify the identity of the deceased person should be scheduled simultaneously with the examination of the exhumed corpse;
• - in the protocol of the investigative action regarding the exhumation, it is necessary to note, in addition to the usual data, the exact location of the burial, the type of grave and tombstone, the depth of the burial, the nature of the soil, the shape and material of the coffin, its contents;
• - the description of the corpse is carried out in the usual manner;
• - if there is suspicion of poisoning, it is necessary to take soil samples from different places near the corpse (on six sides of it), pieces of the coffin (if the corpse is in a coffin), pieces of fabric from the lining of the coffin, pieces of clothing, hair and other objects that may contain poison ;
• - a forensic medical examination of an exhumed corpse can be carried out both directly at the exhumation site and in the morgue;
• - pronounced post-mortem changes in the corpse cannot serve as a basis for refusing to conduct a forensic medical examination of the exhumed corpse;
• - the duties of a forensic specialist do not include performing technical work at the site of exhumation of a corpse, such as digging up a corpse, removing it from a grave, etc., therefore, technical assistants must be involved to perform this type of work;
• - in the future, a certificate is attached to the criminal case about where and when, as well as by whom, the burial of the previously exhumed corpse was carried out.

It should be remembered that exhumation is an organizationally and technically very complex event, and can also cause serious moral trauma to the loved ones of the deceased person, so it is not advisable to prescribe it without serious reasons. Before ordering exhumation, you should consult with forensic doctors regarding the possibilities of determining certain data on a modified corpse in relation to a specific case.

Based on the results of the exhumation, an investigative inspection protocol is drawn up in accordance with the requirements set out above.

Inspection of accident scenes- a very important and responsible investigative action. What was missed during the inspection of the crime scene and the corpse is most often lost irretrievably and cannot be obtained by carrying out other investigative and other actions.

The most qualified personnel from among investigators, operational workers, forensic specialists and forensic doctors should be involved in the inspection of the crime scene and the corpse.

Law enforcement agencies practice dividing corpses into "criminal" And "non-criminal". The corpses of murdered people are considered “criminal” when the presence of a murder is absolutely obvious; corpses in all other cases are called “non-criminal”.

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Introduction

Chapter 1. The Dying Process

Conclusion

Introduction

Forensic medicine is a branch of medicine that resolves medical and biological issues that arise during the activities of forensic investigative bodies, and also assists health authorities in improving the quality of their work. Forensic medicine is not a random, mechanical collection of medical disciplines used for targeted legal practice, as it was at the beginning of the development of forensic medicine.

Currently, forensic medicine is an independent medical science that studies a certain range of issues and has its own research methods. As forensic medicine developed, a number of sciences emerged from it as independent disciplines, for example, forensic chemistry, forensic psychiatry, and forensic toxicology. Forensic medicine is connected with all other medical sciences, these are pathological physiology, pharmacology, surgery, histology, traumatology. How medical science uses laboratory research methods, X-ray, microbiological, and physiotechnical research methods. With the help of the latter, for example, the type of weapon, the mechanism of injury, and the establishment of the intravital origin of the injury are determined.

Among the legal sciences, criminology is very close to forensic medicine, which is a legal discipline that studies the tactics, methods and techniques of crime investigation. In order to successfully conduct an investigation or trial, and correctly evaluate an expert’s opinion, a lawyer must have an understanding of the capabilities of forensic medicine and the limits of the competence of forensic medical examination. Under this condition, he will be able to correctly select the right experts, formulate questions for the experts, and critically evaluate their conclusions. Often, the investigator himself has to examine the corpse at the scene of the incident, and having knowledge of the basics of forensic medicine, the investigator will be able to navigate in determining how long ago the death occurred, the nature of the injuries, and the features of the incident.

The system of the subject is determined by the existing practice of forensic medical examination and can be presented in the following form: the parocessual part, which sets out the rules for conducting a forensic medical examination, provides the content and interpretation of various laws, regulations, instructions relating to forensic medical examination; the material part, which sets out medical and natural scientific information that makes up the content of forensic medicine as a science. This part is divided into several sections:

1. Department of the doctrine of death (Thanatology) - includes the doctrine of death, its occurrence, its signs, post-mortem changes on the corpse, the difference between violent death and death causing suspicion of violence. This also includes techniques for forensic medical examination of corpses.

2. Department of injuries (forensic traumatology): - includes the study of various injuries, their recognition and precise characteristics, determination of their effect on the body, clarification of the methods and circumstances of injury and their legal assessment.

3. Department of poisoning (forensic toxicology) - poisonings that are important in forensic medicine are studied, as well as their clinical recognition, treatment and prevention.

4. Department of controversial sexual conditions - includes questions regarding sexual functions, determination of infection with sexually transmitted diseases, all types of research regarding violations of sexual integrity (rape, molestation), determination of the child's identity.

5. Pregnancy and childbirth (forensic obstetrics) - studies ways to recognize pregnancy, its duration, recognition of births that have taken place, methods of abortion. This section also includes a chapter on infanticide.

6. Department of forensic medical examination of material evidence - studies biological evidence: blood, semen, hair and interpretation of its results.

7. Border areas of criminology and forensic medicine - forensic technical examination - these are methods of personal identification, feigned and artificial diseases, and determination of the type of death.

8. Department for the study of medical practice and other types of medical work, medical errors and medical practice.

9. The department for the study of mental state (forensic psychiatry) is developed by psychiatrists, studying methods for determining sanity, various mental illnesses that exclude or mitigate criminal liability or interfere with a person’s civil capacity.

There are two main tasks of forensic medicine:

1. Assistance to the justice authorities.

2. Providing medical and preventive care to the population. In accordance with the order of the USSR Minister of Health N166 dated April 10, 1962, it requires forensic medical examiners to: discuss forensic cases at clinical and anatomical conferences, notify health authorities about facts of gross discrepancies in clinical and anatomical diagnoses and defects in medical work; carrying out analyzes of cases of sudden death, transport injuries, domestic and industrial poisoning, in order to carry out preventive measures and identify defects in medical care.

Chapter 1. The Dying Process

The science that studies the issues of death and dying is called thanatology (from the Greek death - thanos). The dying process can be quick or it can be long. There are several periods in the dying process.

1. Preagonal state: weak, rapid pulse, pale or spotted skin, shallow, rapid breathing. During this period, the body tries to turn on compensatory mechanisms aimed at maintaining and normalizing basic life functions. The preagonal state can last for several hours, even if no medical treatment is provided.

2. Agonal state: the beginning of agony (not in all types of dying) is very clearly registered by a terminal pause. It is characterized by the fact that after rapid breathing, it suddenly stops completely. The pause lasts up to 2 - 4 minutes. Following this, agony begins directly, including a single shallow breath, the amplitude of respiratory movements increases, the person seems to gasp for air. Due to a violation of the respiratory act, breathing stops completely. The cerebral cortex turns off, although at the supomolecular level the processes of life are mobilized and continue. The appearance of the dying person changes sharply: the face becomes pale, sallow, the nose is pointed, the cornea loses its luster, and the mouth opens slightly.

3. Clinical death: begins from the moment the activity of the cerebral cortex, breathing, and blood circulation ceases and lasts 4 - 7 minutes, during which resuscitation measures are most often carried out. Determining the fact of death is the most important moment in the work of a forensic doctor, and even more important in the work of the attending physician. It is not difficult to determine the fact of death 6 - 8 hours after its occurrence, when obvious cadaveric phenomena appear. It is difficult to navigate the first 1 - 2 hours. In a hospital setting, this issue is not difficult to resolve since there is a variety of equipment, however, in accordance with the existing situation, the corpses of persons who died in the hospital are transferred to the morgue no earlier than 2 hours after death, that is, no earlier than absolute signs of death appear on the corpse - cadaveric spots. Currently, to ascertain death, indicative and reliable signs of death are used. Orienting factors include: motionless body position, pale skin, lack of consciousness, breathing, pulse, heartbeat, lack of sensitivity to painful stimuli, lack of pupillary reaction to light. When working at the scene of an incident, a forensic expert most often does not have doubts about the fact of death, since by this time the absolute signs of death are clearly visible: the presence of cadaveric spots and rigor mortis, a decrease in body temperature below + 20 degrees, drying of the sclera and cornea, a sign Beloglazova (change in the shape of the pupil when pressed - cat's eye).

Chapter 2. Early cadaveric changes

Cadaveric phenomena are divided into early (on the 1st day after death) and late (become noticeable from the 2nd day). The early ones include:

1. Cooling.

2. Drying.

3. Cadaveric spots.

4. Rigor mortis.

5. Autolysis.

1. Cooling of the corpse - for diagnosing the duration of death, it has only approximate knowledge, since, along with other factors, it is not yet known what the body temperature was at the moment of dying, and it can fluctuate within significant limits not only in patients, but also in healthy people .

Heat production in the body of the deceased stops and the corpse cools down to ambient temperature. The temperature of the corpse may be lower than the ambient temperature due to the evaporation of moisture. The process is usually completed by the end of the first day. Exposed areas (hands, face) cool faster, their cooling can be noticed after 1 - 2 hours, the armpit is slower. It is recommended to measure temperature in the rectum and deep thermometry (liver) using an electric thermometer with special needle sensors.

Heat transfer depends on external conditions: air temperature, humidity, ventilation, clothing and its nature. Individual characteristics also matter: the development of subcutaneous fat (possessing low thermal conductivity, it slows down cooling), age (faster in children), cause of death (faster in case of alcohol or arsenic poisoning, blood loss accelerates), so the results of thermometry have very relative values .

After death occurs, the process of establishing a thermal balance between the temperature of the dead body and the ambient temperature occurs. For example, if the ambient temperature is higher than the temperature of the dead body, then the corpse heats up; if it is lower, the corpse cools down. The greater the temperature difference between the corpse and the environment, the more intense the cooling (or heating) process. The process of changing the body temperature of a corpse is influenced by the following factors: age, physique, position (posture) of the body, the nature and amount of clothing, cause of death, air movement, humidity and other factors. It is generally accepted that at an ambient temperature of 18 °C, a corpse cools down by 1 °C per hour, and by the end of the day it reaches ambient temperature.

At the present stage, the study of the process of cooling a corpse is the most objective way to establish the duration of death.

Devices based on the ETM-ZB electric thermometer make it possible to measure the temperature in the body of a corpse with an accuracy of hundredths of a degree. It is necessary not only to accurately measure the temperature in the body of a corpse, but also to establish the dynamics of its change within 1-3 hours. The best results are obtained by so-called deep thermometry, for example, inserting a flexible temperature sensor into the esophagus to the level of the diaphragm, as well as studying the temperature in the liver tissue. Measuring the temperature in the rectum gives satisfactory results. For more complete reliability, it is necessary to carry out measurements repeatedly at time intervals.

2. Corpse desiccation. The process of drying of the skin (exposed areas of the body) and mucous membranes (cornea of ​​the eyes, mucous membrane of the mouth, mucous membrane of the labia minora) is observed immediately after death and depends, first of all, on environmental conditions. The intensity of the drying process increases sharply under conditions of elevated temperature. When the eyes are open, the cornea in the shape of a triangle (Larche's spots) dries out and becomes cloudy; the border of the lips of the mouth is dense to the touch and dark red in color. The mucous membrane of the protruding tip of the tongue becomes dense to the touch and red-brown in color during mechanical asphyxia. The skin of the scrotum (or the mucous membrane of the labia minora) may also dry out in the absence of underwear; it becomes dense to the touch and red-brown in color. In areas of the skin, especially in thin places (hands) that have been subjected to compression, areas of drying out can be found, which give the impression of intravital abrasions or bruises. To establish the survival of these formations, it is necessary to place a gauze napkin soaked in water for 2 - 3 hours. After soaking in water, such an area of ​​parchment density turns pale and disappears, while intravital damage remains almost unchanged.

Drying flutters due to the evaporation of moisture from the surface of the body. Evaporation of moisture is a physiological, constantly compensated process that occurs in a living organism. After death, the physiological balance between loss and replenishment of fluid is disrupted, and the body begins to lose moisture through condensation and evaporation.

In places that are most moist during life (lips, sclera), drying is intense and is presented in the form of areas of parchment density. The speed and intensity are influenced by environmental conditions - air temperature, air movement and individual characteristics - degree of nutrition, dehydration, clothing.

Drying of the skin and mucous membranes begins immediately after death, but visually manifests itself after a few hours. It begins with the corneas of open or slightly open eyes (Larchet's spots - drying out in the shape of a triangle 4 - 5 hours after death). The epidermis protects the skin from drying out, so where it is damaged, conditions for drying are created (abrasions, furrows). The lack of a direct relationship between the rate of drying and the period after death, as well as many influencing factors, prevent its use for diagnosing the duration of death.

3. Cadaveric spots - after the cessation of cardiac activity, blood flows under the influence of gravity to the lower parts of the body. Vessels that have lost their tone dilate and fill with blood. Corpse spots appear after 2 - 3 hours.

After death, blood and lymph move under the influence of gravity to the lower parts of the body and organs. The blood vessels in these sections passively expand under fluid pressure. And after 1 - 2 hours, the blood-filled vessels of the skin and subcutaneous fat give the skin first a light purple color, and then a dark purple color, that is, a cadaveric spot is formed. The skin of the body in the overlying parts of the corpse becomes pale due to the movement of blood.

In the formation of cadaveric spots, 3 stages can be distinguished: hypostasis, stasis and imbibition.

1. Hypostasis. Cadaveric spots form immediately after cardiac arrest, the most intensive development occurs in the first hours (2 - 4 hours). When the position of the corpse changes during these hours, blood moves from the places of primary formation of cadaveric spots and the appearance of new ones on other, lower lying parts of the body. In areas of the body of a corpse that are pressed to the plane (interscapular, lumbar and gluteal regions, the back of the thigh and lower leg), cadaveric spots do not form due to compression of the blood vessels containing blood. Due to this mechanism, the pattern of clothing folds is also clearly visible against the background of the formed cadaveric spots. The color and severity of cadaveric spots are influenced by the following factors: cause of death, type of death, duration of dying, condition and amount of blood in the body, and others. As a rule, cadaveric spots have a dark purple color, but when poisoned by various compounds, their color may change. In case of poisoning with carbon monoxide or hydrocyanic acid compounds, the blood becomes bright red and due to this, the cadaveric spots have a red-pink color. When poisoned by poisons (aniline dyes, nitrobenzene and others), cadaveric spots become grayish-brown, and when poisoned by hemolytic poisons (arsenic compounds, many types of fungi, and others), cadaveric spots have a jaundiced tint. When the body contains a small amount of blood, as a rule, with heavy blood loss or when the blood in the vessels is in a state of coagulation, cadaveric spots turn out to be weakly expressed and are presented in the form of local or merging areas.

2. Stasis. Blood hemolysis products gradually diffuse through the vascular wall into the surrounding tissue. Compression of blood vessels over time causes the effect of blanching of the cadaveric spot to a lesser extent. The movement of the body of a corpse and its turning over 6 - 18 hours after death reveals an important forensic circumstance: the cadaveric spots that formed initially and ended up in the overlying sections during the turning over do not completely disappear, and the degree of their blanching decreases over time. New cadaveric spots appear on the underlying areas of the corpse. Their intensity is less, the later the corpse was turned over. After 12 - 15 hours, the plasma sweats, hemolysis products permeate the tissues, the blood thickens, so the cadaveric spots turn pale when pressed and partially move.

3. Imbibition. After the first day, when the corpse is turned over, the cadaveric spots where they formed previously do not disappear and do not form in new places. This principle is the basis for one of the methods for establishing the age of formation of cadaveric spots and, thereby, determining the age of death. To do this, a specially designed dynamometer is used to apply pressure with a force of 2 kilograms per 1 square centimeter with an exposure of 3 s to the area of ​​the cadaveric spot, and then determine the time for restoration of the color of the blanched area to the level of color intensity of the surrounding skin. After 24 - 35 hours, red blood cells disintegrate and the surrounding tissues become saturated with plasma containing hemoglobin. They do not fade or disappear. Cadaveric spots depend on the condition of the blood: liquid blood - cadaveric spots are abundant, anemia - weakly expressed.

4. Muscle rigor. The forensic medical significance of muscle rigor is extremely great, since it helps to fix the body posture at the time of death.

This term was first proposed in 1990. V.N. Kryukov, before this the term “rigor mortis” was widely used, which did not reflect the essence of the processes taking place. The formation of muscle rigor is influenced by the following factors: individual characteristics of the body, environmental conditions, cause of death and mechanism of dying.

After death, passive movements in the joints of the limbs are easily achieved due to sharp relaxation of the muscles. But by the end of 1-2 hours after death, the skeletal muscles gradually become dense to the touch due to the contraction of muscle tissue due to its death, that is, muscle rigor develops. This process occurs in all muscles simultaneously, but ends at different times depending on the characteristics of the structure and blood supply. Since physiologically the extensors are stronger than the flexors, when examining the corpse it can be stated that the fingers are slightly bent or even bent into a fist, the arms are bent at the wrists and elbow joints, and the legs are at the knees. The muscles gradually become more dense to the touch, and at the height of the development of rigor mortis, there is no passive movement in the joints of the limbs.

If muscle rigor is disturbed during the first 24 hours, it develops again, but to a much smaller extent. Resolution of muscle rigor begins by the end of the third day, free passive movement appears in the joints of the limbs.

There is another type of muscle rigor - thermal muscle rigor. It is associated with protein coagulation in skeletal muscles, which occurs at temperatures above 50 °C. Thermal rigor rigor can also occur in cases where normal rigor rigor has already resolved and the corpse was exposed to high temperature, for example in a fire.

Based on the fact that the process of muscle death occurs slowly, under the influence of electrical stimuli it actively responds with its contraction. The duration of the response to an electrical stimulus varies for different muscles: for facial muscles - up to 2 - 5 hours, for the quadriceps femoris muscle - up to 12 - 18 hours. When examining a corpse at the scene of an accident, experts use specially designed portable devices to determine the level of electrical irritability of muscles to determine how long ago death occurred.

During the first hours after death, as a result of impact with a hard blunt object in the area of ​​the biceps brachii muscle, it is possible to obtain an idiomuscular tumor due to local contraction of the striated muscles at the site of damage. The extent of the tumor can provide additional information about the time of death.

Rigor (muscle) rigor - muscle contraction in a living person occurs as a result of the interaction of muscle protein with ATP, which is then broken down releasing a large amount of energy. This energy is used for mechanical muscle work. Relaxation is associated with the resynthesis of ATP from ADP in the presence of oxygen. In the muscles of a corpse, ATP breakdown and muscle contraction gradually occur, and because there is no oxygen, resitis does not occur and the muscles do not relax.

Rigor mortis is intense in case of poisoning with strychnine, cicutotoxin, acids, and so on; weakly - hemolytic poisons, drugs, and so on. With asphyxia - faster due to convulsions. At high temperatures it develops and resolves faster, because biochemical reactions occur with the absorption of heat.

Rigor mortis develops after 3 - 4 hours, after 8 - 14 hours all muscles are in a state of rigor mortis. Allowed after 2 - 3 days.

Descending development and resolution. Rigor mortis, broken 10-12 hours after death, is not restored.

5. Autolysis - the property of biological objects to hydrolytically decompose their own structures under the action of enzymes. After death occurs, enzyme production continues for some time in individual organs and tissues. The active activity of enzymes (pepsin, trypsin, and so on) does not always stop immediately after death, and cells also disintegrate, and enzymes that are normally isolated from tissues are released. Tissue acidosis promotes increased enzyme activity.

Initially, autolysis manifests itself in organs with a high content of proteolytic enzymes (pancreas, adrenal glands, stomach, spleen, liver). There is a softening and liquefaction of organs and tissues, a violation of their structure.

Autolysis has a negative meaning, simulating intravital pathological processes. In addition, it allows you to determine the rate of dying (more pronounced with rapid death).

Conclusion

Death is the natural end of life. In medical practice, the period of death is counted from the moment of final cardiac arrest and death of the cerebral cortex. But at the same time, it is known that damage to the cerebral cortex (5-8 minutes after cardiac arrest) does not at all mean the death of the entire organism. Many organs and tissues survive the moment of cardiac arrest for quite a long time and can be used in transplantation (kidneys, cartilage tissue, heart, liver, bone marrow, skin and other organs).

The first stage of dying is the preagonal state, the second is the terminal pause, then the atonal period begins, then clinical and biological death.

The time period for transition from life to death for different types of injuries is not the same. In case of injuries that are accompanied by a violation of the integrity of vital internal organs (brain, heart, spinal cord), as well as with various types of asphyxia, death occurs in a short period of time, calculated from several seconds to several minutes. In forensic medical practice, this type of death is called “acute.”

As a rule, the onset of “acute” death is usually associated with primary respiratory arrest. During external and internal examination of the corpse in such cases, abundant cadaveric spots of a diffuse nature are found, occupying more than 0.5 of the entire surface of the body, ecchymosis (punctate hemorrhages) in the mucous membrane of the eyelids, cerebral edema, congestion of the internal organs, dark liquid blood in the cavities of the heart and large vessels, acute pulmonary emphysema with foci of edema, swelling of the gall bladder bed.

If the moment of cardiac arrest is preceded by an atonal period, which can last from several tens of minutes to several hours, then the resulting disorder of blood circulation leads to congestion. When examining a corpse in such cases, they find abundant, diffuse cadaveric spots, relaxation of the sphincters, pronounced swelling of the tissue of the lungs and membranes of the brain, congestive venous congestion of the internal organs, in the cavities of the heart and large vessels, dark red and yellow blood clots (fibrin).

Depending on the cause in forensic medicine, it is customary to distinguish the category, type and type of death.

Violent death means premature death, which occurred from the consequences of various influences of environmental factors (mechanical, electrical, chemical, etc.).

The type of death should be understood as a set of factors that caused the death of a person under their influence. Death can occur as a result of poisoning, extreme temperatures, hypoxic conditions arising from external causes (drowning, hanging, etc.). These types of deaths are considered under the category of violent deaths. In the category of non-violent death, the type of death is sudden death.

In forensic medicine, the type of sudden death means death that occurs as a result of hidden or even asymptomatic diseases, in the midst of visible, apparent health. Such a death is unexpected for others and raises suspicion of a violent death (for example, poisoning).

In the category of violent death, the type of death means murder (taking the life of one person by another), suicide (taking the life of oneself) or death due to a combination of unfavorable, unforeseen circumstances - an accident.

The responsibility of a forensic medical expert is only to establish the category and type of death, and establishing the type of death is the prerogative of the forensic investigative authorities, since the doctor does not have special (medical) methods for establishing the intent of the act.

The first step of a medical examiner when examining a body at a crime scene is to determine whether there are signs of life or the absence thereof. To do this, the doctor uses orienting signs of death, which include the absence of reflexes from the cornea and pupils, the absence of breathing, heartbeat, and pulse in large blood vessels.

If there are signs of life in the victim, the doctor must begin resuscitation measures and, with the help of the investigative authorities, organize the evacuation of the victim to the nearest medical facility, while he himself remains to continue examining the scene of the incident.

To ascertain death when examining a body at the scene of an incident, the doctor uses, in addition to orienting signs, reliable signs of death that develop in the corpse in connection with the onset of biological death and the development of post-mortem changes in the corpse.

Bibliography

1. Textbook "Forensic Medicine" ed. prof. Tomilina.

2. Forensic medicine" Smolyaninov (for medical universities).

3. Directory for lawyers "Forensic medical examination" Prof. Tomilin V.V.

4. Course of lectures on Forensic Medicine" by Prof. Gromov.

5. Vinogradov “Forensic Medicine” (for lawyers) M: 1991

6. A.A. Solokhin “Qualification tests in forensic medicine” M: 1994,

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With the cessation of cardiac activity, blood pressure drops to zero and, under the influence of gravity, the blood partially flows to the lower parts of the body. It overflows the blood vessels (capillaries, venules, veins) that have lost their tone and expand under its pressure and appears under the skin in the form of purple

Or lilac corpse spots.

When the color of blood changes as a result, for example, of poisoning with poisons acting on hemoglobin, the color of cadaveric spots changes accordingly. Thus, in case of carbon monoxide poisoning due to the formation of carboxyhemoglobin, cadaveric spots become pinkish-red; in case of poisoning with methemoglobin-forming poisons, they acquire a brownish color. The localization of cadaveric spots depends on the position of the corpse (Fig. 87). If the latter lies on his back, then cadaveric spots appear on the posterolateral surfaces of the body, with the exception of places exposed to pressure (scapular areas, buttocks, calves), into whose vessels blood cannot penetrate (Fig. 88). Against the background of cadaveric spots, pale areas of skin are clearly visible - imprints of the relief of the surface on which the body lay. In the development of cadaveric spots, three stages are distinguished: hypostasis (drip), stasis (stopping) and imbibition (impregnation). It is impossible to establish clear time boundaries between the stages, since they move into one another gradually.

The first stage of the formation of cadaveric spots - hypostasis, or cadaveric incrustation - appears on average 11/2-2 hours after death, sometimes a little later, and continues for 6-10 hours (up to 8-12 hours after death), gradually turning into stasis. In the stage of hypostasis, blood, which has almost not changed its properties, is in the vessels, therefore, when pressing on the area of ​​the cadaveric spot with a dynamometer or a finger, it moves into the vessels of the surrounding areas and the cadaveric spot at the site of pressure disappears. After the pressure stops, the blood quickly returns through the vessels and the color of the cadaveric spot is restored.

Since blood during hypostasis remains mobile in the vessels, a change in the initial position of the corpse during the first 8-12 hours after death leads to the fact that cadaveric spots disappear from their original location and appear in new, lower-lying places.

In the stage of cadaveric stasis, blood, which has thickened due to the sweating of plasma into the surrounding tissues, gradually loses the ability to move through the vessels and cadaveric spots are fixed at the sites of formation. When the corpse is turned over, they no longer disappear, but at the beginning of the stage, new spots may form on the lower parts of the body. It takes a long time for them to appear. At this stage, cadaveric spots do not disappear when pressed, but only turn pale and slowly restore their color. The duration of stasis is from 8-12 to 24-36 hours after death. In the stage of cadaveric imbibition, the autolytic and cellular breakdown of erythrocytes and the saturation of the walls of blood vessels and surrounding tissues with hemoglobin begins, exiting through the vascular walls along with the plasma. Therefore, during the imbibition stage, cadaveric spots do not move and do not even turn pale when pressed.

In some cases, it is necessary to differentiate cadaveric spots from bruises. To do this, cross-shaped skin incisions are made (so as not to subsequently confuse these incisions with injuries, such as incised wounds). In cadaveric spots, blood is in the vessels or (in the stage of imbibition) diffusely permeates the tissue; a bruise consists of blood that has spilled into the tissue and coagulated.

The speed of formation and the severity of cadaveric spots depend on a number of reasons. For example, with massive blood loss, they appear late, 3-4 hours or more after death, and are not abundant. They are also weakly expressed during prolonged dying due to the fact that a significant amount of blood coagulates in the vessels. On the contrary, in case of sudden death from cardiovascular diseases, in case of rapid death from

Asphyxia, electrical trauma, etc. all the blood remains in the vessels of the corpse in liquid form, cadaveric spots form quickly (by the end of the first hour after death) and are abundant.

The forensic medical significance of cadaveric spots is very great

Firstly, the presence of cadaveric spots is an undoubted sign of biological death.

Secondly, based on the degree of their development, one can roughly judge the time of death.

Thirdly, the localization of cadaveric spots makes it possible to establish the duration of the corpse’s stay in a certain position and decide whether it was changed by anyone before the investigator and doctor examined the corpse. In addition, the unusual color of cadaveric spots gives the doctor reason to suspect poisoning by poisons that alter blood hemoglobin, and accordingly plan and perform an autopsy.

Corpse hypostases and imbibition are also observed in the internal organs. So, if the corpse lies on its back, then the posterior sections of the internal organs become saturated with blood, become denser than the anterior sections and acquire a darker color. At autopsy 2 days after death and later, intimal imbibition is observed

The aorta and endocardium, which first acquire a pink and then dirty red color.

During the development of hypostasis in the internal organs, part of the plasma leaving the vessels sweats through the serous membranes and accumulates in the pleural, abdominal and pericardial cavities. This transudate is initially yellow, and then, due to the admixture of hemoglobin, turns red. By the end of 3-4 days after death, up to 50-100 ml of liquid can be found in the cavities. All these changes are postmortem and are not associated with any intravital damage or disease processes.

Rigor mortis

Immediately after death, the body of the corpse relaxes, all muscles become soft, passive movements in the joints are easily carried out in full. Some time after death, the muscles of the corpse begin to spontaneously thicken, harden, the joints become stiff because of this, one or another position of the corpse is fixed - rigor mortis sets in. Now you need to make a significant effort in order to open the corpse’s mouth and bend its arm or leg.

The mechanism of rigor mortis still cannot be considered completely clarified. Some researchers associated the development of rigor mortis with the process of muscle protein coagulation under the influence of lactic acid accumulating in muscle tissue (coagulation theory); others believed that the cause of its development was the flow of pathological impulses from the dying nervous system. A certain importance was attached to the processes of osmotic swelling or, conversely, dehydration of muscles. N. E. Vvedensky believed that rigor mortis is a state of parabiosis of muscle tissue.

Currently, great importance is attached to the breakdown of adenosine triphosphoric acid (ATP) in the occurrence and development of rigor mortis. Active muscle contraction during life is the result of the interaction of muscle protein with ATP, which is then broken down, releasing a large amount of energy. This energy is used by the muscle to perform mechanical work. Muscle relaxation is associated with ATP resynthesis. In the muscles of the corpse, ATP gradually breaks down, and since the muscle tissue survives the death of the body, rigor mortis develops simultaneously with the breakdown of ATP.

It must be assumed that the process of development and course of rigor mortis is complex and each of these theories illuminates only certain aspects of this phenomenon, which can be considered a parabiosis of muscle tissue caused by a violation of its blood supply and respiration and associated with both those listed and others not yet disclosed processes.

Rigor usually appears 1-3 hours after death. In most cases, it can initially be detected in the facial muscles, in particular the masticatory muscles. Then it covers the muscles of the neck, torso, upper and lower extremities (descending type of development of rigor mortis according to Nysten). However, there may be deviations from this rule. Some authors (V.F. Vladimirsky, V.L. Svyatoschik) believe that the cadaveric window

Chaining begins simultaneously in all muscles of the body, but the speed of complete coverage of individual muscles by this process is not the same, which depends on many reasons.

Approximately 5-6 hours after death, rigor mortis covers all groups of skeletal muscles, and by the end of the day it reaches its greatest severity, remaining in this form for several days, after which it begins to gradually disappear spontaneously. The process of resolving rigor mortis is associated with autolysis and putrefaction. Therefore, if the corpse is in a warm room, muscle softening can be detected already by the end of the second - beginning of the third day after death. At low ambient temperatures, rigor mortis lasts longer (up to 6-7 days or more).

Rigor mortis develops not only in striated muscles, but also in smooth muscles. Therefore, the walls of many internal organs (stomach, intestines, bladder) become denser, which is sometimes clearly visible at autopsy.

An extremely rare type of rigor mortis is cataleptic. It occurs almost instantly at the moment of death and records the person’s dying posture. It is believed that cataleptic rigor mortis occurs due to damage and acute pathological processes in the medulla oblongata and in the adjacent part of the spinal cord. Rigor mortis, which is mechanically disturbed soon after its formation, is usually restored, but its expression is much weaker than in the surrounding muscles. Rigor mortis that is broken 10-12 hours after death and later is no longer restored.

The timing and degree of development of rigor mortis is influenced by many factors. Thus, in muscular subjects, rigor is very well expressed. In the exhausted, those who have been ill for a long time, in the elderly and children, it is expressed to a much lesser extent. In cases of death accompanied by convulsions (strychnine poisoning, tetanus, electric shock), as well as in cases where death is preceded by heavy physical work, a rapidly developing and well-defined rigor is observed.

Ambient temperature has a significant influence on the development of rigor mortis: with increasing temperature, the development and resolution of rigor mortis accelerates.

The forensic medical significance of rigor mortis is that it, like cadaveric spots, is a reliable sign of death. In addition, by the degree of development of rigor mortis and the number of muscle groups covered by it, one can approximately judge the time of death and the posture of the corpse

And its possible changes.

Cooling the corpse

Cooling of the distal parts of the extremities can occur already in the atonal period due to circulatory disorders and a decrease in the process of heat generation. After the cessation of life and associated reactions, accompanied by the release of heat, the cooling of the corpse begins.

The rate of cooling depends on many endo- and exogenous factors: the fatness of the deceased, the nature of his clothing, body temperature before death, temperature and humidity of the environment, the properties of the surface on which the corpse lies, etc. At temperatures below 0 ° C, the cooling of the corpse passes into freezing. Sometimes even the cause of death affects the rate of cooling. Thus, in the event of death from tetanus and some infectious diseases, the temperature of the corpse in the first hours after death may even increase.

Cooling begins on exposed parts of the body. The face and hands become cold to the touch within 1-2 hours and after death. After 4-5 hours, you can determine the coldness of parts of the body covered with clothing. It is believed that at room temperature (+ 18 ° C) the corpse of a normally clothed person cools down at the rate

About 1 °C per hour, and by the end of the day the temperature of the corpse is compared with the ambient temperature. According to other studies, the drop in temperature slows down 6-8 hours after death, and its decrease by 1 ° C occurs not in 1 hour, but in 11/2-2 hours. Since life processes can persist at quite deep hypothermia, then the initial degree of cooling is not an absolute sign of death and can only indicate it in combination with other signs.

This post-mortem change is associated with the evaporation of moisture from the surface of the body. Since the epidermis protects well from evaporation, on corpses under normal conditions, first In turn, those parts of the body that are wet during life dry out (red border and mucous membrane of the lips, cornea and conjunctiva of the eyes, scrotum, glans penis), or areas of damaged skin devoid of epidermis (abrasions, edges of wounds, strangulation furrows).

The time of appearance and severity of cadaveric desiccation primarily depend on the temperature and humidity of the environment, as well as other reasons. The corneas and conjunctiva dry out especially quickly if the corpse's eyes are not closed. In this case, after 2-3 hours, clouding of the cornea becomes noticeable, and yellowish-brown areas of drying (Larche spots) are revealed on the conjunctiva.

By the end of the first - beginning of the second day, the dried areas of the skin become significantly thicker and acquire a red-brown or yellow-brown color. Thanks to the drying process, even the most minor damage, difficult to notice shortly after death, becomes clearly visible.

Not only intravital, but also post-mortem injuries dry out. Dried post-mortem abrasions are called parchment stains because of their density and yellowish color. Areas of dryness on the lips, scrotum, and other locations can sometimes be misinterpreted as intravital injuries.

Autolysis

The active activity of intracellular and other enzymes of the body does not stop immediately after death and can lead to autolytic changes in some internal organs. The most pronounced autolysis processes develop in the stomach and pancreas. It is as if self-digestion of the gastric mucosa occurs. The blood in its vessels changes under the influence of hydrochloric acid and gastric juice enzymes and becomes dark brown. The mucous membrane itself loosens and in some places peels off from the submucosal layer. Posthumous entry of gastric juice into the esophagus, pharynx, and trachea leads to the digestion of their mucous membrane, which loosens and is easily separated from the submucosal layer.

Such changes may be mistaken for the effects of caustic poisons.

Autolytic processes in the pancreas sometimes lead to partial melting of its tissue. These changes against the background of congestive or hypostatic plethora may be incorrectly regarded as acute hemorrhagic necrosis. Other organs (adrenal glands, brain, small and large intestines, etc.) are also subject to autolysis to one degree or another.