Embalming 2 Final Exam Flashcards

1
Q

action of a force against an opposing force (a force applied or acting against resistance).

A

PRESSURE

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2
Q

whatever pressure is necessary to overcome initial vascular resistance and distribute embalming solution to all areas of the dead human body (ideal pressure) – adjective to describe pressure

A

Recommended (ideal) pressure

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3
Q

speed at which fluid is injected measure in ounces per minute.
Controlled by a valve on the embalming machine which controls the flow of fluid muck like a water faucet.

A

RATE OF FLOW

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4
Q

– that which will ensure uniform distribution without causing (promoting) over distention (swelling).

A

Ideal rate of flow

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5
Q

PSI stands for

A

pounds per square inch

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6
Q

METHODS OF CREATING PRESSURE

A
  1. Gravity Injector Method
  2. HAND PUMP
  3. Bulb Syringe
  4. Motorized Force Pump
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7
Q

a method of creating pressure; consist of a glass bottle (PERCOLATOR), rubber tubing and a device to suspend the bottle above the point of injection

A

Gravity Injector Method

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8
Q

Pressure is increased _____________for every foot of elevation above the point of injection.

A

.43 pounds, (approximately ½)

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9
Q

how many inches (feet) above injection creates 1 pound of pressure

A

28 inches (2.33 feet)

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10
Q

how many inches (feet) above injection creates 2 pound of pressure

A

56 inches (4.66 feet)

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11
Q

how many inches (feet) above injection creates 3 pound of pressure

A

84 inches (7.00 feet)

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12
Q

The percolator is elevated 5 feet above point of injection, how much injection pressure is created? lbs.

A

5 x .43 = 2.15

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13
Q

To create 3 pounds of injection pressure how many feet, above the point of injection would the percolator need to be raised?

A

3 / .43 = 6.97 feet.

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14
Q

a method of creating pressure; consist of a hand operated pump, tubing and a goose neck arrangement and glass fluid bottle. This apparatus is used for creating injection pressure can be used for aspiration.
Over sized hypodermics syringe attached to bottle and used to create injection pressure or create pressure for aspiration.

A

HAND PUMP

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15
Q

a method of creating pressure; used in combo with hand pump or percolator. Self contained soft rubber, manual pump. Used only to deliver fluid. Simplest form of injection apparatus, consist of a bulb type rubber syringe and rubber tubing.

A

Bulb Syringe

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16
Q

a method of creating pressure; (centrifugal) – most commonly used method of creating injection pressure.

A

Motorized Force Pump

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17
Q

Types of Motorized Force Pump

A

PULSATING and NON-PULSATING

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18
Q

type of motorized force pump; fluid is injected in spurts

A

pulsating

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19
Q

type of motorized force pump; fluid is injected on a continuous basis

A

non-pulsating

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20
Q

pressure indicated by the injector gauge needle when the injector motor is running and the arterial tubing is clamped off

A

Potential Pressure

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21
Q

pressure indicated by the injector gauge needle when the arterial tube is open and the arterial solution is flowing into the body. (Does not mean the actual pounds per pressure)

A

Actual Pressure

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22
Q

difference between potential and actual pressures. P-A=D

This is the actual pressure at which the fluid is flowing into the dead human body

A

Differential Pressure

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23
Q

Considerations for Force Pump

A

Reliable
Wide pressure range- same as a high as 200 pounds.
Constant pressure
Large unit volume- usually at least three gallons.

24
Q

Precautions for force pumps

A

Needs frequent servicing

Requires constant attention of the operator.

25
Q

FACTORS AFFECTING INJECTION PRESSURE

Intravascular Influence

A
  1. Condition of the vessels- normal versus sclerotic.

2. Local congestion of blood in the area- prevents the flow of additional fluid in an area

26
Q

FACTORS AFFECTING INJECTION PRESSURE

Extravascular influence

A
  1. Weight on the viscera- pressing mainly on the descending aorta.
    - *if embalming from the femoral – viscera will be embalmed first causing problems for circulation toward the head. Viscera may begin to harden.
  2. Gas in the viscera – pressure against the descending aorta.
  3. Tumors – pressing against the outside wall of the arteries
  4. Ascites – excess fluid in the peritoneal cavity, not inside the blood vessels. Substance that has clear amber or straw colored fluid released when trocar is inserted into the body
  5. Contact pressure – bandages, clothing, etc., also – contact with certain areas of the body with the embalming table and positioning devices.
  6. Edema of the extremities – caused by heart or kidney failure or venous obstruction.
  7. Swollen ankles or tissue may have complications during embalming.
27
Q

the length of time between death and embalming

A

POST MORTEM INTERVAL

28
Q

postmortem interval

A
  1. Presence of Rigor Mortis – body is highly acidic, once rigor is relieved body is alkaline again.
  2. State of decomposition – still attempt vascular embalming, always try to keep decomposition from advancing any further.
  3. Discoloration – blood pools to the lower region of the position of the body.
  4. Livor Mortis or Cadaveric Lividity
29
Q

The dilution attained as the embalming solution is mixed in the embalming machine. This is determined by the embalming analysis and prepared by the embalmer.

A

Primary Dilution

30
Q

To determine the strength of a primary dilution, the following formula may be employed:

A

C × V = C’ × V’ (c prime × v prime)

31
Q

the strength of the concentrated fluid (index) on the bottle of fluid

A

C

32
Q

the amount (volume) of the concentrated fluid. The number of ounces of fluid to be used. Has to be expressed in ounces. Remember to multiply! The standard bottle of fluid is 16 ounces.

A

V

33
Q

the strength of the diluted fluid. The mixture of fluid and water in the embalming machine. Don’t convert this from a percentage!!!

A

C’ (C prime)

34
Q

In Texas, the recommended minimum strength for embalming is

A

1%

35
Q

the amount of the diluted fluid. Has to be expressed in ounces

A

V’ (V prime)

36
Q

1 gallon of solution is the same as how many ounces?

A

128 ounces

37
Q

In Texas, the amount of diluted fluid or V’ (V prime) is determined how?

A

by the weight of the body

38
Q

the recommended ratio of fluid is? State of Texas

A

inject one gallon of diluted fluid for every 50 pounds of body weight

39
Q

the recommended strength of injection solution is

A

1.5 - 2 %

40
Q

How much of a 20 index fluid will it take to make 2 gallons of a 2% injection solution?

A
C = 20 (index)
	V = ?
	C’ = 2%
	V’ = 256 oz.
	 C x  ?    C’x  V’
	20 x V = 2 x 256
You must multiply both sides of the equal sign. 20 x V = 512

You must then isolate the unknown (V).  To do that, you divide both sides of the equal sign by 20.
V/20 = 512/20
V = 512/20
V = 25.6 ounces

It will take 25.6 ounces of a 20 index solution to make two gallons of a 2% injection solution

41
Q

36 (index) = C
8 ounces of fluid = V
Make one gallon injection solution 128 oz. = V’x C’ = ?
C x V = C’x V’

A

C X V = ? X V
36 x 8 = 228 x C’ x 128 oz.

288/128 = 2.25 = C’ 128/128
2.25 = C’
42
Q

The weakening of the embalming fluid by the fluids in the body, both vascular and interstitial

A

Secondary dilution

43
Q

Conditions that will cause this to vary secondary dilution

A

(1) Edema - any form of edema; localized or generalized will increase the amount of secondary dilution that the embalmer would expect.
(2) Dehydration - will decrease the amount of secondary dilution that the embalmer would expect.

44
Q

The movement of embalming (arterial) solution from the point of injection throughout the arterial system and into the capillaries.
One of the factors arterial embalming is based on.

A

FLUID DISTRIBUTION

45
Q

The movement of molecules or other particles in solution from an area of greater concentration to an area of lesser concentration until a uniform concentration is reached.

A

FLUID DIFFUSION

46
Q

4 basic processes by which fluid diffusion is accomplished

A

Pressure Filtration
Osmosis
Dialysis
Gravity filtration

47
Q

1 of the 4 basic processes by which fluid diffusion is accomplished; The positive intravascular pressure causing passage of embalming fluid through the capillary wall to mix with the interstitial fluids.
The movement from an intravascular to an extra vascular position

A

Pressure Filtration

48
Q

1 of the 4 basic processes by which fluid diffusion is accomplished; The passage of a solvent from a solution of lesser to one of greater solute concentration when the two solutions are separated by a semipermeable membrane.
Process by which most embalming chemicals move from the interstitial fluids through the cell wall and into the cell.
Possible solutions encountered in osmosis hypotonic solution

A

Osmosis

49
Q

a term associated with osmosis; - A solution having a LESSER concentration of dissolved solute than the solution to which it is compared. This solution will move toward the more concentrated solution (try to create a state of equilibrium - balance between the two).

A

hypotonic solution

50
Q

a term associated with osmosis; A solution having an equal concentration of dissolved solute to that to which it is compared. Tends to be no movement, since the two solutions are already in a state of equilibrium/balance.

A

isotonic solution

51
Q

a term associated with osmosis; A solution having a GREATER concentration of dissolved solute than the solution to which it is compared. WILL NOT MOVE; instead the other solution will move toward it to create equilibrium/balance.

A

Hypertonic solution

52
Q

1 of the 4 basic processes by which fluid diffusion is accomplished;

A

Separation of substances in solution by the difference in their rates of diffusion through a semipermeable membrane

53
Q

1 of the 4 basic processes by which fluid diffusion is accomplished;

A

The extravascular movement of preservative fluids by gravitational force to the dependent areas of the body

54
Q

Signs of fluid distribution and diffusion

A
  1. Distention of superficial vessels. ( left superficial temporal)
    2. Large volume of blood drainage.
    3. Reduction of intravascular blood discoloration.
    4. Dye tracing
    5. Loss of elasticity of tissue (firming)
    6. Drying of tissues
    7. Tissue distention - seen in the lips and finger tips.
    8. Bleaching of the tissues.
55
Q

Methods of improving fluid distribution

A
  1. Increase the rate of flow
  2. Increase the injection pressure
  3. Restrict the drainage - this will increase intravascular pressure.
  4. Massage the body.
  5. Lower the arms.
56
Q

rupture of a red blood cell when placed in a hypotonic solution

A

hemolysis

57
Q

shrinkage of red blood cells when placed in a hypertonic solution

A

crenation