Test 3- Chemistry

Question 1

Act on proteins to firm tissues and MOST kill bacteria and saprophytic spores. It is also used to turn the tissues that bacteria use as a food source into a non food source. (Turns Soluble Albumins into Insoluble Albuminoids).

Answer 1

Preservatives

Question 2

Destroy most bacteria but not saprophytic spores. They also turn soluble albumins into insoluble albuminoids.

Answer 2

Germicides

Question 3

Water conditioning agents and these are very similar. They enhance blood drainage and also treat minerals (hard water).

Answer 3

Anticoagulants

Question 4

• Lubricating the vascular system to prevent blood clots.
• Attempt to break up blood clots.
• Treat minerals like iron, calcium, and magnesium.

Answer 4

3 Ways Anticoagulants and Water Conditioners Help With Drainage

Question 5

Also known as:

• Diluters
• Carriers
• Vectors

Answer 5

Vehicles

Question 6

Thin the viscosity of fluid to get better penetration and in turn better preservation.

Answer 6

Surfactants (Wetting Agents)

Question 7

Used to make a life like appearance, or cover discoloration or impart color to the fluids themselves.

Answer 7

Dyes

Question 8

Hide HCHO fumes, Historically called reodorants because they do not destory the odor. They simply hide/mask it.

Answer 8

Deodorants

Question 9

Add moisture to the tissues and help to retain moisture.

Answer 9

Humectants

Question 10

Control the pH of formaldehyde and other chemicals.

Answer 10

Buffers

Question 11

• Always wear safety goggles
• Wear PPE’s
• Gloves
• Deceased’s face covered while being moved
• Have proper hazard protection available
• Address any spills
• Never use HCHO based chemicals as an antiseptic.
• Maintain current MSDS sheets on all chemicals.
• Flush all chemical bottles and be sure to place the cap tightly back on the empty bottle.
• Always keep embalming machine and chemicals covered.
• Bleach and HCHO + a catalyst
• Add chemicals to the tank only after water is added.
• Keep viscera pale covered when in use.
• Keep lid to biohazardous waste covered.

Answer 11

Work Safe Practices

Question 12

Gas ported, 2% HCHO solutions and phenol based chemicals.

Answer 12

Always Wear Safety Goggles

Question 13

That are appropriate for the circumstances.

Answer 13

Wear PPE’s

Question 14

OSHA requires that these be used whenever you come into contact with the dead human body. That includes, initial removal (transfer), embalming preparation, dressing, cosmetics and casketing.

Answer 14

Gloves

Question 15

This is to prevent particulate matter from coming into contact with the embalmer or anyone else in the area.

Answer 15

OSHA requires that the face of the deceased be covered whenever being moved.

Question 16

Examples are the drench shower, eye wash, fire estinguisher, etc.

Answer 16

Have Proper Hazard Protection Available

Question 17

Whenever working in the prep-room, always have this on. This includes using simple products that are considered non-toxic (example: drying powder- prolonged exposure to any type of hazard can be harmful.)

Answer 17

Exhaust Ventilation System

Question 18

Household ammonia should be poured onto HCHO spills and cleaned up with cold water placing contents in an air tight bag. This is because ammonia neutralizes formaldehyde, the bag contains fumes.

Answer 18

Address any Spills of Chemicals no Matter how Small the Amount

Question 19

HCHO is a disinfectant is is unsuitable for living tissues because it is toxic.

Answer 19

Never use HCHO based chemicals as an antiseptic.

Question 20

Material Safety and Data Sheets.

Answer 20

Maintain (current) MSDS Sheets on all Chemicals.

Question 21

Flush all chemical _____ and be sure to place the cap tightly back on the empty _____.

Answer 21

Bottles

Question 22

Always keep the ____ _____ and unused bottles of chemicals covered.

Answer 22

Embalming Machine

Question 23

Mixed with a catalyst can cause Bischlorometyl Ether (BCME)- Carcinogen.

Answer 23

Bleach and Formaldehyde

Question 24

Pour these into the tank only after the water has been added. This prevents backsplash of chemicals (aerosolized chemicals) and is an OSHA regulation.

Answer 24

Embalming Chemicals

Question 25

Keep ___ ___ covered when in use.

Answer 25

Viscera Pale

Question 26

Keep the lid to _____ ____ covered.

Answer 26

Biohazardous Waste

Question 27

Are liquid agents, solutions of solids, liquids, and gases which can be injected into the body arterially or hypodermically or can be applied to the surface as a spray, wash, pack, or gel.

Answer 27

Embalming Fluids

Question 28

Often are the main chemicals common to all embalming solutions. The remainder of ingredients varies greatly from manufacturer to manufacturer.

Answer 28

• Formaldehyde (HCHO, CH₂O)
• Methyl Alcohol (Methanol)

Question 29

The fundamental purpose of embalming fluid.

Answer 29

Vascular Injection

Question 30

The two distinct categories that embalming fluid or embalming chemicals can be subdivided into.

Answer 30

1. Arterial Fluid
2. Cavity Fluid

Question 31

Fluid injected for purposes other than preservation and disinfection. Generally fall into a couple of categories:

• Pre-injection
• Co-injection (humectants and restorative fluids)

Answer 31

Supplemental Fluids

Question 32

1. Preinjection
2. Coinjection
3. Bleaching Agents
4. Astringent Fluids
5. Edematous Fluids
6. Germicide Enhancers
7. Humectants
8. Water-Conditioners
9. Active Dyes

Answer 32

The 9 Types of Supplemental Fluids

Question 33

Fluids that can be injected prior to the AFS being injected.

• Examples: Anticoagulants, water conditioners

Answer 33

Pre-Injection

Question 34

All pre-injection fluid can be used as a ________. It is only a matter of when to use them.

Answer 34

Co-Injection

Question 35

Not all coinjection fluids can be used as _______ fluids.

Answer 35

Preinjection

Question 36

Fluids that are injected simultaneously with the arterial fluid.

• Examples: Active dyes, water conditioners, anticoagulants, humectants, edematous fluids, etc.

Answer 36

Co-injection

Question 37

These fluids can sometimes be used as a co-injection (though that is rare) or by themselves topically or hypodermically.

Answer 37

Bleaching Agents

Question 38

Used for excessive moisture. They are Hypotonic Solutions. Typically 30+ index.

• Edema
• Excess moisture
• Tissue gas
• Trauma cases
• Advanced decomposition

Answer 38

Astringent Fluids

Question 39

These are used to draw out the excess moisture when edema/anasarca are a concern. They are hypertonic solutions. (And are the only hypertonic solutions).

Answer 39

Edematous Fluids

Question 40

Fluids that destroy some bacteria, but not spores. They render the food medium undesirable. Most often, they are used in conjunction with preservatives.

Answer 40

Germicide Enhancers

Question 41

Add/retain moisture. They are hypotonic solutions.

Answer 41

Humectants

Question 42

Treat the minerals in the water (especially well-water) and also serve a double purpose as an anti-coagulant.

Answer 42

Water-Conditioners

Question 43

These are used to impart a stain within the tissues to create a more life-like appearance (memory picture).

Answer 43

Active Dyes

Question 44

There is no difference chemically between preinjection and ______ . They are sold as the same product- the difference would be in moment of use.

Answer 44

Coinjection

Question 45

The function of these is to be united with the tissue cells to create a state of preservation. This is accomplished by tissue coagulation (general term).

Answer 45

Arterial Fluid

Question 46

The solidification of the tissue cell protoplasm (albuminoids). This will cause the tissue cells to be converted into a gel or resinous substance which is unfit for bacterial food. The tissue cells will be soft but solid and resistant to decomposition (Conversion of soluble albumin to insoluble albuminoids).

Answer 46

Tissue Coagulation

Question 47

To disinfect, preserve, and to firm the tissues of the dead body without causing onjectionable changes in the skin or tissues.

Answer 47

The Purpose of Arterial Fluids

Question 48

The amount of formaldehyde measured in grams dissolved in 100 milliliters (ml) of water. Refers only to the absolute HCHO gas present and is not a measure of total aldehyde concentration of the total preservative strength of the product.

• Strong
• Medium
• Weak

Answer 48

Index

Question 49

• Advanted decomposition (COPSA)
• Delayed burial
• Firm tissue for restorative art work
• Excess moisture (edema/anasarca)
• Excessive adipose tissue (adipose contains more moisture).
• Trauma cases where treatment requires drying of tissues for reconstructive work.
• Will often cause dehydration or tissue burning.
• Will cause tissue to darken- HCHO grey

Answer 49

High Index (Strong) 30-36+ Index (Hard Firming)

Question 50

• Average case
• Normal moisture content
• Usually contains active dyes
• May contain lanolin base- humectant
• Most of the so-called cosmetic arterial fluids in this group.
• Slow firmer, flexible, moderate or rubbery firmness.
• Cause little dehydration or other objectionable changes like tissue burning.

Answer 50

Moderate Index 20-26 (Mild Firming)

Question 51

• Non-hardening, non-firming, or slightly firming
• Contains minimum amount of HCHO
• Produces a minimum rigidity- often used on the frail, elderly, and infants.
• Emaciated cases/ severely dehydrated

Answer 51

Mild Index (weak: 10-15, usually 15, Soft Firming)

Question 52

Used in cases of liver failure (signs first appear in the sclera of the eyes).

Answer 52

Jaundice (Icterus) Fluids (Low HCHO index)

Question 53

Although these fall into the mild category (low index), they are augmented by chemicals such as tanning agents that produce full firmness without causing the tissue to turn green. With some of these, severe dehydration may result.

Answer 53

Jaundice Fluids

Question 54

Caused by:

• High HCHO index
• Acidic Environment (because of high HCHO)

Answer 54

Bilirubin converting into Biliverdin

Question 55

The single biggest problem that embalmers encounter. No two embalming cases are the same.

Answer 55

Variation

Question 56

Depending on the circumstances, this method of emblaming can be used with a more stringent solution going down and a more midler solution with humectants into the head/face.

Answer 56

Restricted Cervical Method

Question 57

Often the embalmer will utilize a _____ index fluid and vary the concentration of the dilution.

Answer 57

Moderate

Question 58

1. Cosmetic fluids
2. Non-cosmetic fluids

Answer 58

Two Classifications of Arterial Fluid by Color

Question 59

Contain active dyes/afterial fluids that impart a color change on the body tissues of the deceased. Use the femoral for even distribution.

Answer 59

Cosmetic Fluids

Question 60

Contain inactive dyes that do not impart a color change on the body tissues of the deceased. (Often in preinjection, phenol jelly, and same cavity fluid).

Answer 60

Non-Cosmetic Fluids

Question 61

In 1859, he published an accurate description of formaldehyde solution, formaldehyde gas, and formaldehyde polymerization. No clue what to do with it.

Answer 61

Alexander Mikhailovich Butlerov (1828-1866) Russian

Question 62

In 1868, he prepared formaldehyde by passing a mixture of methanol vapors and air over a heated platinum spiral. His preparation clearly established both the structure and identity of formaldehyde as the first member of the aldehyde group. No clue what to do with it!

Answer 62

August Wilhelm Von Hoffman (1818-1892) German

Question 63

Both of these men are credited with the discovery of formaldehyde, but neither associated its potential use with preservation.

Answer 63

Butlerov and Von Hoffman

Question 64

Most states between 1895-1920 outlawed these:

• Alum
• Zinc sulfate
• Bichloride of mercury
• Aluminum chloride
• Arsenic

By World War I, all products were switched to formaldehyde.

Answer 64

Metallic Poisons (Salts of Heavy Metals)

Question 65

• Can cover up murder
• Embalmers killing themselves with poisonous chemicals due to not wearing gloves.
• Embalmers resisted the law, changing from metallic to formaldehyde (made bodies hard, metal poisons are soft and easy to put into place).

Answer 65

Reasons Salts of Heavy Metals were Replaced with Formaldehyde

Question 66

In 1888 determined that HCHO could be used as a preservative. He observed the antiseptic properties of HCHO gases produced by burning sugar.

Answer 66

J. Auguste Trillat (French)

Question 67

All are obtained by oxidation of alcohol. It is prepared commercially by passing a mixture of air and vaporized methyl alcohol over hot copper or silver gauze. The hot gauze acts as a catalyst to cause the union of the alcohol with the oxygen contained in the air. The end result is a colorless gas with pungent, penetrating, irritating odor. It is freely soluble in water as formalin, af act which permits its use as arterial fluid and other liquid disinfectants.

Answer 67

Aledhydes

Question 68

A saturated aqueous solution of formaldehyde which contains 40% HCHO by volume and 37% by weight. This means that 40% of this is HCHO gas and that the remaining 60% is water and other solvents. (7% is methyl alcohol).

Answer 68

Formalin

Question 69

• Aldehydes
• Alcohols
• Phenols
• Formaldehyde “donor” compounds

Answer 69

4 Major Types of Preservatives Used in Embalming Fluids

Question 70

• Inactivates the active chemical groups of proteins and amino acids.
• Inhibits further decomposition, both decay and putrefaction.
• Inactives enzymes thus preventing further autolysis (acid hydrolase)
• Either kills microorganisms or deters their growth.
• Destroys odors and eliminates their further production.

Answer 70

Action of Preservative Chemicals on Bodily Tissues

Question 71

Formaldehyde reacts directly with water, methanol, amino acids and proteins and indirectly with fat.

Answer 71

Preservation by Formaldehyde

Question 72

When HCHO gas is mixed with water, most of it is converted into methylene glycol. Very little “free” HCHO is present in these solutions. However, this apparently has no effect on the preserving and disinfecting action of the fluids. Protein is fixed or set due to the donation of a methylene group (CH₂).

Answer 72

Reaction of Formaldehyde with Water

Question 73

Methanol acts as an anti-polymerizing agent in embalming fluids. Even the commercial grade of formalin contains approximately 7% methanol for this specific purpose. Methanol bonds the molecules of carbohydrates, sugar and proteins together making them less susceptible to decomposition. Formalin polymerize methanol breaks down; polymer formaldehyde crystals are formed.

Answer 73

Reaction of Formaldehyde with Methanol

Question 74

Since amino acids are depolymerized units of proteins, HCHO will react with them in a similar manner. However, since they are much smaller units than proteins, the gross appearance of “coagulated” amino acids is substantially different than that of coagulated protein. Thus the term non-coagulability of amino acids found its way into the literature of embalming. HCHO can react with free amines and can combine two different amino groups into a single compound deterring decomposition. If ammonia forms, fluid will have no effect! Household ammonia will neutralize formalin formaldehyde. Sunlight will cause methanol to break down in cavity fluid.

Answer 74

Reaction of Formaldehyde With Amino Acids

Question 75

The primary chemical actions of HCHO in embalming is the coagulation of protein.

Answer 75

Reaction of Formaldehyde with Proteins

Question 76

1. Viscosity of protein is increased.
2. Embalmed tissue is now rigid as a result of the cross-linking action bonding molecules together.
3. The resistance to digestion of protein by enzymes is increased (acid hydrolysis).
4. The water sensitivity (hydrolysis) and water solubility are decreased.

Answer 76

The Resulting Changes in Protein Brought About by HCHO and Other Coagulating Agents:

Question 77

Actually involves the preservation of a matrix in which the fat is embedded rather than the preservation of the fat itself. The preservative action of HCHO works by cross-linking nitrogen atoms, fat lacks nitrogen atoms, but fatty tissue is embedded in nitrogen rich and protein rich connective tissue.

Answer 77

Indirect Action of Formaldehyde on Fat

Question 78

Coagulation of protein is brought about through denaturation of the protein by cross-linking the peptide bonds of adjacent polypetide chains. Unembalmed tissue is pliable and flexible. Embalmed tissue is rigid as a result of cross-linking of protein. The methylene bridges that bond the adjacent polypeptide chains together eliminate the movement that is characteristically present in non cross-linked protein.

Answer 78

Protein Bonding Before and After Embalming

Question 79

This is due to the fact that formaldehyde is a smaller aldehyde, which gives it more room to crosslink.

Answer 79

HCHO Cross-Links far More Than Gluteraldehyde

Question 80

Cross-linking of protein removes a molecule of _____ for every cross-link that is formed. The presence of an abundance of water may reverse this process by hydrolyzing the cross-linkages. Therefore, the embalming result may also be reversed by the presence of an excessive amount of water. (Counteracted with higher index and edematous fluids).

Answer 80

Water

Question 81

The total amount of HCHO with which protein will combine to be completely preserved.

Answer 81

Formaldehyde Demand

Question 82

After hydrolysis breaks the individual peptide bonds, each amino group will react with a HCHO molecule. This effectively _____ the HCHO demand.

Answer 82

Doubles

Question 83

As the remains decompose, it becomes necessary to increase both the ____ and ____ of the arterial fluid solution.

Answer 83

Volume and Strength

Question 84

It is imperative to embalm as soon as possible. The ______ a person is deceased, the more HCHO is demanded to firm/preserve.

Answer 84

Longer

Question 85

In reality, under normal circumstances, embalming can take place a day(s) and still obtain good results. However, the sooner embalming takes place, the better results the embalmer will obtain.

Answer 85

Embalming does not always have to be done immediately after death.

Question 86

If the embalming solution is too concentrated, the capillaries in the tissues will be seared and sealed by the HCHO, thus effectively inhibiting diffusion of the fluid into the tissues by walling off the unexposed areas.

Answer 86

Walling Off Action of HCHO

Question 87

By HCHO is the distribution and diffusion of the fluid.

Answer 87

The Key to the Preservation of Tissue

Question 88

Refers to the movement of fluid from the point of injection to the tissues.

Answer 88

Distribution

Question 89

Describes the movement of fluid into the tissues. (From intracellular to extracellular)

Answer 89

Diffusion

Question 90

Change the basic nature of protein molecules.

Answer 90

Chemicals Used as Preservatives

Question 91

1. Concentration of the aldehyde
2. pH of the solution (7.4)- Best mimics blood
3. Effect of certain chemical compounds on aldehyde
4. Temperature of the solution. (How water catalyst- HCHO head freeze)
5. Condition of the tissue as it relates to decomposition changes (Increase in decomposition= decrease in firming).

Answer 91

The Amount of Aldehyde That is Taken up by the Protein Molecule Depends Upon (5):

Question 92

1. Solubility
2. Penetrability
3. Compatability
4. Stability

Answer 92

The Qualities a Germicide Used in Emblaming Display

Question 93

Must react well in water.

Answer 93

Solubility

Question 94

Must penetrate tissue cell protoplasm.

Answer 94

Penetrability

Question 95

Must react and interact with other supplemental chemicals in solution.

Answer 95

Compatability

Question 96

Must have an acceptable shelf life; must remain stable in solution. Must avoid sunlight.

• Often 2-5 years (do not use if 5 years old)
• Must be stored at 55 degrees F.
• To tell bad fluid- methanol breaks down; polymerize (crystals)

Answer 96

Stability