Exam 4 Lecture Notes- Postmortem Chemical Change

Question 1

• 10 types of decomposition:
  
  • Autolysis
  • Fermentation
  • Saccharolysis
  • Proteolysis
  • Lipolysis
  • Hydrolysis
  • Bacterial Decay
  • Bacterial Putrefaction
  • Hemolysis
  • Oxidation
• Rigor Mortis
• Postmortem Caloricity
• Change in pH
• Postmortem Stain

Answer 1

Postmortem Chemical Changes

Question 2

Separation of compounds into similar substances by the action of microbial and/or autolytic enzymes.

(general term)

Answer 2

Decomposition

Question 3

Self destruction of cells; decomposition of all tissues by enzymes of their own formation without microbial assistance.

1. Enzymes
2. Co-enzymes
3. Anti-enzymes
4. Lysosomes

Answer 3

Autolysis

Question 4

Chemical catalysts which are employed by the tissue cells for the digestion and metabolism of food substances during life.

Answer 4

Enzymes

Question 5

Accelerator substances which increase the activity of enzymes.

Answer 5

Co-enzymes

Question 6

Substances similar to antibodies. They have a marked inhibitory action on certain enzymes and serve to protect the living tissues against their own digestive agents (autolysis).

Answer 6

Anti-enzymes

Question 7

A membrane bound body within a cell containing a microscopic droplet of acid hydrolase. At death, acid hydrolase is released (kicks in autolysis). This enzyme is able to break down all matter, fats, carbohydrates and protein. They are capable of destroying the cell membranes, ultimately destroying tissue membrane- this occurs shortly after death.

Answer 7

Lysosomes

Question 8

Organelles within cells that contain the digestive enzyme of a cell. The primary enzyme is acid hydrolase. After death, the pH of tissue changes from slightly alkaline to slightly acid causing the membranes around this organelle to rupture. Self-digestion begins with the release of enzymes.

Answer 8

Role of the Lysosome

Question 9

• Amino acids
• Sugars
• Fatty Acids
• Glycerol

Answer 9

End Products of Autolysis

Question 10

Bacterial decomposition of carbohydrates. It occurs simultaneously with putrefaction and constitutes a major embalming problem. It is the reduction of carbohydrates into simpler substances usually carbon dioxide and water.

• Bacteria, yeasts, and autolytic enzymes play a key role in this after death.

Answer 10

Fermentation

Question 11

• Anoxidative bacterial fermentation anaerobic type.
• Oxidative bacterial fermentation aerobic type.

Answer 11

Types of Fermentation

Question 12

No oxygen involved.

Answer 12

Aboxidative bacterial fermentation anaerobic type

Question 13

Oxygen is directly involved.

• This type will always dominate the fermentation process.

Answer 13

Oxidative bacterial fermentation aerobic type

Question 14

The decomposition of sugars; similar to fermentation, bacteria, yeasts and autolytic enzymes play a key role in the process.

Answer 14

Saccharolysis

Question 15

The decomposition of proteins.

1. Putrefaction
2. Decay

Answer 15

Proteolysis

Question 16

The decomposition of proteins by action of enzymes of anaerobic bacteria. It is the most unequivocal sign of death.

• Distinct, foul odor more likely to occur with this.

Answer 16

Putrefaction

Question 17

The decomposition of protein caused by the action of enzymes of aerobic bacteria.

• Foul odors are much less likely

Answer 17

Decay

Question 18

The decomposition of lipids (fats). Will occur concurrently with the other types of decomposition.

Answer 18

Lipolysis

Question 19

The decomposition of tissue caused by molecules of water, simply, splitting by water.

Answer 19

Hydrolysis

Question 20

The destructive influence encountered from tissue acidity which beings to form shortly after death, reaching it’s peak during rigor mortis.

Answer 20

One of the earliest postmortem chemical changes

Question 21

• The source of the acid is carbon dioxide accumulated in the tissues as a result of:
  
  • Cell metabolism
  • The absence of blood circulation to carry the waste material away from the tissue.
• Carbon dioxide + water –> Carbonic Acid

Answer 21

The destructive influence encountered from tissue acidity (beginning shortly after death)

Question 22

As bodily tissue reaches this pH (in which bacteria will thrive), carbonic acid will directly react with protein causing it to breakdown into amino acids.

• Hydrolysis of protein will begin putrefaction

Answer 22

pH of 8

Question 23

• Color
• Odor
• Purge
• Desquamation (skin slip)
• Accumulation of gas in viscera, cavities, and other body tissues.

Answer 23

Cardinal Signs of Decomposition (list question)

Question 24

1. Yellow green to green
2. Pink-red-purple-brown
3. Dark Brown

Answer 24

Color

Question 25

First external sign of decomposition appears as a silver dollar size circle over the right inguinal or iliac region (lower right quadrant of the abdomen).

• The activity of E.coli causing visceral gas with a combination of hydrogen sulfide and hemoglobin results in a spreading green discoloration eventually covering the body.

Answer 25

Yellow Green to Green

Question 26

Due to hemolysis resulting in extravascular postmortem stain.

Answer 26

Pink-Red-Purple-Brown

Question 27

Leatherized condition due to postmortem dehydration.

• Example: Freezer Burn

Answer 27

Dark Brown

Question 28

Putrefaction is characterized by a nauseating odor resulting from simple amines, complex amines, and the end products of putrefaction.

• Much less noticeable in decay

Answer 28

Odor

Question 29

1. Hydrogen Sulfide
2. Hydrogen Phosphide
3. Ammonia
4. Mercaptans

Answer 29

Examples of odor causing gas

Question 30

This is completely neutralized by ammonia.

Answer 30

Formaldehyde

Question 31

The postmortem evacuation of any substance from any external orifice of the body. Specifically, the evacuation of the contents of the repiratory and gastrointestinal tracts.

• May occur through the mouth, nose, and/or anus as a result of visceral gas pressure.

Answer 31

Purge

Question 32

The separation of the epidermis (outer layer) from the demis (inner layer) as a result of putrefactive softening in the rete mucosum.

• There is a watery infiltration from the minute capillaries between them.
• When the loosened epidermis is pressed upon, it slips or tears away from the dermis.

Answer 32

Skin Slip (Desquamation)

Question 33

• Postmortem Skin Slip
• Antemortem Skin Slip (Agonal desquamation)

Answer 33

Two Kinds of Skin Slip

Question 34

The jelly-like substance that binds the dermis to the epidermis.

• The decomposition of this causes skin slip (Maceration)

Answer 34

Rete Mucosum

Question 35

• Visceral Gas
• Tissue Gas

Answer 35

Accumulated gases in viscera, cavities and other body tissues.

Question 36

The gas formed in the intestinal tract due to the activity of intestinal flora.

• Example: E.coli (a faculatitive anaerobe)

Answer 36

Visceral Gas

Question 37

Prefers to be an aerobe existing in free oxygen but can survive as an anaerobe in a non-oxygen environment.

Answer 37

Facultative Anaerobe

Question 38

Prefers to be an anaerobe not in an oxygen environment, but can survive in oxygen as an aerobe.

Answer 38

Facultative Aerobe

Question 39

Cannot survive in oxygen, oxygen will kill it.

• Example: Clostridium perfringen

Answer 39

Obligate (strict) Anaerobe

Question 40

Cannot survive without oxygen.

Answer 40

Obligate (strict) Aerobe

Question 41

Compressed air is introduced to raise the atmospheic pressure to serveral times normal. At the same time, the patient is given pure oxygen through a face mask. The increase in atmospheric pressure forces enouch air into the patient so that the pressure within the patient’s body equals the pressure outside. This all the patient’s tissues become flooded with more than the usual supply of oxygen.

• H.P.O. (High oxygenated pressure)

Answer 41

Hyperbalic Chamber

Question 42

Exposure to oxygen under conditions of greatly increased pressure usually in a hyperbalic chamber.

Answer 42

H.P.O. (High Oxygenated Pressure)

Question 43

Discovered Clostridium perfringen (1894-1899) while a researcher at Johns Hopkins University; later he was Dean of the Medical School.

Answer 43

Dr. William Henry Welch

Question 44

Abdominal edema, fluid build up.

• When touched, this moves, while gas does not.

Answer 44

Ascites

Question 45

These are both common intestinal flora.

Answer 45

E.coli and Clostridium perfringen

Question 46

During this war, trench warfare on battlefields that were previously farm pastures rich with animal waste (Clostridium perfringen) combined with exploding shells caused massive exposure resulting in gas gangrene.

Answer 46

World War I

Question 47

Noted in advanced putrefaction; it is the formation of gas in the intercellular spaces of the body caused by Clostridium perfringen (Clostridium welchii).

• In it’s antemortem stage, this organism causes gas gangrene.
• It is a spore former
• Encapsulated bacillus
• Almost impossible to kill with chemicals.
• It is the embalmer’s greatest enemy, but is rare.

Answer 47

Tissue Gas (Postmortem emphysema)

Question 48

• Impossible to stop the spread in advanced stages.
• Can be carried from one body to another by contaminated instruments.
• Gas pockets form beneath the surface in the layers of the skin.
• Eventually, this organism will surface, causing the tissue of these bubbles to blister. Eventually, the body will be covered with these bubbles or blisters. There will be the odor of putrefaction.
• Opening these bubbles will expose this anaerobe to free oxygen, which it cannot tolerate, causing it to form a spore.
• It will appear first in the poorly supported tissues.

Answer 48

Characteristics of Tissue Gas

Question 49

Tissue gas prior to the bubble stage. When the gas filled area is pressed upon, it has a spongey feeling and emits a crackling sensation as the gas is forced through the intercellular spaces. The tissue is crunchy.

Answer 49

Crepitation

Question 50

• Scrotum
• Neck
• Shoulders
• Eyelids
• Area around the sternum

Answer 50

Tissue Gas appears first in the poorly supported tissues.

Question 51

Hypodermically injecting into the gas pockets using the following chemicals:

• Gasoline, kerosene
• High Index Cavity Fluid- 50 or greater
• San Veno (liquid)

Answer 51

Some embalmers have had success with tissue gas by doing this.

Question 52

Do not push oxygen far enough to reach extremities. Subcutaneous emphysema develops and funeral director gets the body too far gone to work with.

Answer 52

Hospital Life Support Systems

Question 53

A non-pathological (not caused by bacteria) condition that has no relation to putrefaction.

Answer 53

Subcutaneous Emphysema

Question 54

It looks and feels like tissue gas; the signs are identical except for:

• It won’t bubble or blister
• It has no odor of putrefaction

Answer 54

Description of Subcutaneous Emphysema

Question 55

The influx of massive amounts of oxygen and/or carbon dioxide into the tissues causing gas formations in the intercellular spaces.

• Punctured lungs as a result of trauma.
• A massive antemortem dosage of oxygen just prior to death (life support).

Answer 55

Causes of Subcutaneous Emphysema

Question 56

• Remains may turn dark or even black during injection.
• Severe swelling as in tissue gas.
• No danger of early decomposition; no not increase the strength of fluid.
• Air may be pressed out or squeezed from tissue by working gas toward an open incision or by aspiration and reaspiration.

Answer 56

Effects on Embalming- Subcutaneous Emphysema

Question 57

The putrefactive odor which is present in tissue gas.

Answer 57

The difference between subcutaneous emphysema and postmortem emphysema.

Question 58

This is the only positive sign of death. It is a chemical change. The factors that regulate rigor mortis are the same factors that regulate decomposition.

Answer 58

General Decomposition

Question 59

The products of lipolysis, the destructive hydrolysis of fats during putrefaction. They do not combine with HCHO and, as a rule, present no problem, not even odor.

• The breakdown of lipids and proteins result from the action of bacterial enzymes and autolytic enzymes.

Answer 59

Fatty Acids

Question 60

• Protein
• Amino Acid
• Amines- simple and complex
• End products

Answer 60

Products of Decomposition

Question 61

Embalmable with good results.

Answer 61

Protein

Question 62

Embalmable with poor results.

• Swelling
• No firmness; rubbery
• Distortion of features

Answer 62

Amino Acid

Question 63

Unembalmable

Answer 63

Amines (Simple and Complex)

Question 64

Body Poisons

• Cadaverine
• Neurine
• Skatole
• Indole
• Putrescine

Answer 64

Complex Amines

Question 65

• Ammonia compounds
• Hydrogen Sulfide
• Hydrogen Phosphide
• Mercaptans
• Methane

Answer 65

Simple Amines

Question 66

• Hydrogen
• Nitrogen
• Water
• Ammonia
• Carbon Dioxide
• Phosphoric Acid
• Sulfuric Acid

Answer 66

End Products of Decomposition

Question 67

1. Age
2. Sex
3. Corpulence
4. Cause and manner of death
5. Bacterial and parasitic activity
6. Pharmaceutical agents

Answer 67

Intrinsic Factors Governing Decomposition

Question 68

1. Air
2. Moisture
3. Temperature
4. Bacterial and parasitic activity
5. Pressure due to earth or clothing
6. Vermin including maggots, lice, and rats.

Answer 68

Extrinsic Factors Governing Decomposition