CHAPTER 7: CHEMICAL FIXATIVES PART 1

Question 1

• Aldehydes
• Act by creating covalent chemical bonds between proteins in tissue
• Anchors soluble proteins to the cytoskeleton, and lends additional rigidity to the tissue

Answer 1

Crosslinking Fixatives

Question 2

• Commonly used cross-linking fixative
• Good for immunohistochemical techniques
• Long term storage and good tissue penetration
• Vapor form is used for cell smears

Answer 2

Formaldehyde

Question 3

Standard solution of Formaldehyde

Answer 3

10% neutral buffered formalin / 3.7%-4.0% formaldehyde in phosphate buffered saline

Question 4

Made with formaldehyde but the percentage denotes a different formaldehyde concentration

Answer 4

Formalin

Question 5

10% neutral buffered formalin is equivalent to __% formaldehyde

Answer 5

4

Question 6

• Most widely used fixative for routine histology
• Buffered to pH 7 with phosphate buffer
• Immunohistochemistry and interphase FISH
• Contains 10% methanol to retard the formation of higher polymers that eventually fall out of solution as paraformaldehyde (deposits of white powder)

Answer 6

10% Neutral buffered formalin

Question 7

Routine fixation with 10% Neutral buffered formalin

Answer 7

1. Dissect specimen ASAP and immerse in a large volume of fixative
2. Place at 4 degC and fix overnight
3. Wash tissue well in several changes of Phosphate Buffered Saline (PBS); tissue may be stored in cold PBS for short period of time (2 or 3 days) and will be safe in ethanol since there is no danger of bacterial degradation
4. Should not be stored in 70% ethanol for extended period; instead, store in PBS with sodium azide

Question 8

Fixation time of small tissues (10x10x3) in 10% Neutral buffered formalin

a. 12-24 hours
b. 8-12 hours (overnight)
c. 24 hours
d. 2-4 weeks

Answer 8

a. 12-24 hours

Question 9

T/F: Fixation with formaldehyde is largely complete within 24 hours, although cross-linking still occurs for at least 2 weeks

Answer 9

True

Question 10

T/F: At temperatures normally used for fixation (20-22°C), native DNA and RNA react with formaldehyde.

Answer 10

False (do not react)

Question 11

If reaction mixtures are heated at about 45 deg C (RNA) and 65 deg C (DNA), reaction begins due to _______.

Answer 11

uncoiling

Question 12

T/F: Only at elevated temperatures used when tissues are infiltrated with paraffin or resin, can a reaction with any remaining fixative take place.

Answer 12

True

Question 13

Advantages of 10% Neutral buffered formalin

Answer 13

1. It is cheap, readily available, easy to prepare, and relatively stable, especially if stored in buffered solution.
2. It is compatible with many stains, and therefore can be used with various staining techniques depending upon the need of the tissues
3. It does not over-harden tissues, even with prolonged periods of fixation, as long as solutions are regularly changed.
4. It penetrates tissue well
5. It preserves fat and mucin, making them resistant to subsequent treatment with fat solvents, and allowing them to be stained for demonstration
6. It preserves glycogen
7. It preserves but does not precipitate proteins, thereby allowing tissue enzymes to be studied. It does not make tissues brittle and is therefore recommended for nervous tissue preservation.
8. It allows natural tissue colors to be restored after fixation by immersing formalin-fixed tissues in 70% alcohol for one hour and is therefore recommended for colored tissue photography.
9. It allows frozen tissue sections to be prepared easily.
10. It does not require washing out, unless tissues have stayed in formalin for excessively long periods of time

Question 14

If unbuffered, Formalin reduces neutrophilic and eosinophilic staining of cells. It also forms abundant brown pigment granules on blood-containing tissues, e.g., spleen, due to blackening of hemoglobin.

False/True
True/False
Both True
Both False

Answer 14

False/True (basophilic and eosinophilic)

Question 15

Prolonged fixation may produce:

a. Bleaching and loss of natural tissue colors
b. Fat dispersal into fluid
c. Loss of glycogen and urate crystals

Answer 15

AOTA

Question 16

FACTORS THAT INFLUENCE FORMALIN FIXATION

Answer 16

1) Post-Mortem / Post-Surgical Interval
2) Composition of Fixative
3) Volume of Fixative
4) Fixation Time (24 hours in NBF)
5) Temperature
6) Tissue Thickness (3-5mm)
7) Post-Fixation Storage (for necessary delay, 3 days in the cold in 70% ethanol)

Question 17

Mixture of fixatives that is useful for electron cytochemistry

Answer 17

Karnovsky’s paraformaldehyde- glutaraldehyde

Question 18

-Mixture of fixative
- Rapid, preserve morphology and enzyme activity at low concentration
- Used for immersion fixation of surgical biopsies

Answer 18

Acrolein

Question 19

remove white paraformaldehyde deposits

Answer 19

10% methanol

Question 20

If added to formaldehyde, it prevents decomposition to formic acid or precipitation to paraformaldehyde (but unsuitable for EM due to protein denaturation)

Answer 20

Methanol

Question 21

Change fluid fixative every _____ to prevent bleaching of tissues

Answer 21

3 months

Question 22

Immerse tissues in _______ after fixation to restore its natural colors

Answer 22

70% alcohol

Question 23

T/F: Saturated alcoholic picric acid or 1% potassium hydroxide in 80% alcohol can remove brown/black crystalline precipitate formed by formic acid with blood.

Answer 23

True

Question 24

______ can be added to prevent dispersion of fat into fluid

Answer 24

Cadmium/Cobalt

Question 25

T/F: Magnesium carbonate or calcium can buffer/neutralize acid reaction due to formic acid formation to prevent explosion

Answer 25

True

Question 26

T/F: Cadmium acetate can buffer formalin without leaving deposits on the tissue parts exposed to it

Answer 26

False (leave deposits)

Question 27

Secondary fixation of formalin-fixed tissues (1-2 hours) in Helly’s fluid for _______ or in _______ for 4-16 hours to improve staining and produce firmer and harder consistency.

Answer 27

• 4-6 hours
• Formol sublimate

Question 28

T/F: Prevent deposition of hematin from acidic formalin by maintaining alkaline pH

Answer 28

False (neutral)

Question 29

T/F: Wash tissue in demineralized water if post-fixed in osmic acid to prevent hypotonicity and bleaching

Answer 29

False (Do not wash in demineralized water)

Question 30

Fixation of tissue blocks less than or equal to ______ thickness is usually complete in 6-12 hours at room temperature

Answer 30

5 mm

Question 31

pH of 10% Formal-Saline

Answer 31

6.8

Question 32

Widely used prior to introduction of Phosphate Buffered Formalin

Answer 32

10% Formal-Saline

Question 33

Fixation time of 10% Formal-Saline

Answer 33

12-24 hours

Question 34

• Central nervous tissues and general post-mortem tissues for histochemical examination
• Preservation of lipids (phospholipids)

Answer 34

10% Formal-Saline

Question 35

Advantages of 10% Formal-Saline

Answer 35

1. It penetrates and fixes tissues evenly.
2. It preserves microanatomic and cytologic details with minimum shrinkage and distortion.
3. Large specimens may be fixed for a long time provided that the solution is changed every three months.
4. It preserves enzymes and nucleoproteins.
5. It demonstrates fats and mucin.
6. It does not over-harden tissues, thereby facilitating dissection of the specimen.
7. It is ideal for most staining techniques, including silver impregnation
8. It allows natural tissue color to be restored upon immersion in 70% alcohol.

Question 35

Advantages of 10% Formal-Saline

Answer 35

1. It penetrates and fixes tissues evenly.
2. It preserves microanatomic and cytologic details with minimum shrinkage and distortion.
3. Large specimens may be fixed for a long time provided that the solution is changed every three months.
4. It preserves enzymes and nucleoproteins.
5. It demonstrates fats and mucin.
6. It does not over-harden tissues, thereby facilitating dissection of the specimen.
7. It is ideal for most staining techniques, including silver impregnation
8. It allows natural tissue color to be restored upon immersion in 70% alcohol.

Question 36

T/F: 10% Formal-Saline is a rapid fixative

Answer 36

False (slow; 24 hours or longer)

Question 37

Formal-saline fixed tissues tend to shrink during alcohol dehydration; this may be reduced by __________

Answer 37

secondary fixation

Question 38

T/F: Acid dye stains more brightly than when fixed with mercuric chloride

Answer 38

False (less brightly)

Question 39

One of the advantages of formol saline is that the 4. metachromatic reaction of amyloid is reduced.

Answer 39

False (disadvantage)

Question 40

pH of 10% Neutral-Buffered Formalin

Answer 40

7.4

Question 41

Best fixative for tissues containing iron pigments and for elastic fibers which do not stain well after Susa, Zenker’s or chromate fixation

Answer 41

10% Neutral-Buffered Formalin

Question 42

T/F: 10% Neutral-Buffered Formalin requires no post-treatment after fixation and goes directly into 80% alcohol for processing

Answer 42

True

Question 43

T/F: 10% Neutral-Buffered Formalin requires no post-treatment after fixation and goes directly into 80% alcohol for processing

Answer 43

True

Question 44

Disadvantages of 10% Neutral-Buffered Formalin

Answer 44

1. It is longer to prepare; hence, is time-consuming.
2. Positivity of mucin to PAS is reduced.
3. It may produce gradual loss in basophilic staining of cells
4. Reactivity of myelin to Weigert’s iron hematoxylin stain is reduced.
5. It is inert towards lipids, especially neutral fats and phospholipids.

Question 45

The following statements about Unbuffered Zinc Formalin are true except for:

1. Devised as alternatives to mercuric chloride formulations
2. Said to give improved results with immunohistochemistry
3. Zinc sulphate is more corrosive than zinc chloride

a. 1
b. 2
c. 3

Answer 45

c. 3

Question 46

Fixation time of Formol-Corrosive (Formol-Sublimate)

Answer 46

3-24 hours

Question 46

Fixation time of Formol-Corrosive (Formol-Sublimate)

Answer 46

3-24 hours

Question 47

Recommended for routine post-mortem tissues

Answer 47

Formol-Corrosive (Formol-Sublimate)

Question 48

It is excellent for many staining procedures including silver reticulum methods

Answer 48

Formol-Corrosive (Formol-Sublimate)

Question 49

It is excellent for many staining procedures including silver reticulum methods

Answer 49

Formol-Corrosive (Formol-Sublimate)

Question 50

Cytological structures and blood cells are well preserved. There is no need for “washing-out”. Tissues can be transferred directly from fixative to
alcohol.

a.10% Formal-Saline
b.10% Neutral-Buffered Formalin
c. Formol-Corrosive (Formol-Sublimate)

Answer 50

c. Formol-Corrosive (Formol-Sublimate)

Question 51

It fixes lipids, especially neutral fats and
phospholipids

Answer 51

Formol-Corrosive (Formol-Sublimate)

Question 52

Disadvantages of Formol-Corrosive (Formol-Sublimate)

Answer 52

1. Penetration is slow; hence, tissue sections should not be more than 1 cm thick.
2. It forms mercuric chloride deposits.
3. It does not allow frozen tissue sections to be made.
4. It inhibits the determination of the extent of tissue decalcification.

Question 53

• Suited for paraffin embedding and sectioning, and immunocytochemical analysis
• Allows for subsequent immune-detection of certain antigens and should be therefore used when objective is to study morphology and protein expression simultaneously

Answer 53

Paraformaldehyde

Question 54

Polymerized form of formaldehyde, usually obtained as fine white powder; depolymerizes to formalin when heated

Question 55

Polymerized form of formaldehyde, usually obtained as fine white powder; depolymerizes to formalin when heated

Answer 55

Paraformaldehyde

Question 56

4% Paraformaldehyde-1% Glutaraldehyde in 0.1M Phosphate Buffer

Answer 56

Karnovsky’s Fixative

Question 57

• Suitable for use when preparing samples for LM in resin embedding and sectioning, and for EM
• Should always be prepared fresh

Answer 57

Karnovsky’s Fixative

Question 58

• Made up of 2 formaldehyde residues, linked by a 3-carbon chain
• Causes rapid and irreversible changes, fixes quickly, well suited for EM
• It fixes well at 4 deg C and it gives best overall cytoplasmic and nuclear detail

Answer 58

Glutaraldehyde

Question 59

Causes deformation of alpha-helix structure in
proteins (not good for immunohistochemical staining)

Answer 59

Glutaraldehyde

Question 60

most efficient aldehyde blockers

Answer 60

Ethanolamine and lysine

Question 61

4% Glutaraldehyde is used for small tissue fragments and needle biopsies (2-4 hours @ RT). 2.5% Glutaraldehyde is used for larger tissues less than 4mm thick (6-8 hours up to 24 hours)

a. FALSE/TRUE
b. TRUE/FALSE
c. BOTH TRUE
d. BOTH FALSE

Answer 61

d. BOTH FALSE

Question 62

Advantages of Glutaraldehyde over Formalin

Answer 62

1. It has a more stable effect on tissues, giving a firmer texture with better tissue sections, especially of central nervous tissues.
2. It preserves plasma proteins better.
3. It produces less tissue shrinkage.
4. It preserves cellular structures better; hence, is recommended for electron microscopy.
5. It is more pleasant and less irritating to the nose.
6. It does not cause dermatitis.

Question 62

Advantages of Glutaraldehyde over Formalin

Answer 62

1. It has a more stable effect on tissues, giving a firmer texture with better tissue sections, especially of central nervous tissues.
2. It preserves plasma proteins better.
3. It produces less tissue shrinkage.
4. It preserves cellular structures better; hence, is recommended for electron microscopy.
5. It is more pleasant and less irritating to the nose.
6. It does not cause dermatitis.

Question 62

Advantages of Glutaraldehyde over Formalin

Answer 62

1. It has a more stable effect on tissues, giving a firmer texture with better tissue sections, especially of central nervous tissues.
2. It preserves plasma proteins better.
3. It produces less tissue shrinkage.
4. It preserves cellular structures better; hence, is recommended for electron microscopy.
5. It is more pleasant and less irritating to the nose.
6. It does not cause dermatitis.

Question 63

Disadvantages of Glutaraldehyde over Formaldehyde

Answer 63

1. It is less stable.
2. It penetrates tissues more slowly.
3. It tends to make tissue (i.e., renal biopsy) more brittle
4. It is more expensive.
5. It reduces PAS positivity of reactive mucin. This may be prevented by immersing glutaraldehyde- fixed tissues in a mixture of concentrated glacial acetic acid and aniline oil.