3. INTRODUCTION
ZN is a modification of Ehrlich’s (1882) original method for
the differential staining of tubercle bacilli and other acid fast
bacilli with aniline gentian violet followed by strong nitric
acid.
It incorporates improvements suggested , successively , by
Ziehl – Neelsen
The ordinary aniline dye solutions do not readily penetrate
the substance of the tubercle bacillus and therefore
unsuitable for staining.
4. PRINCIPLE
ACID FAST
mycobacteria contain
mycolic acid in their
outer membrane ,
making the cell waxy
and resistant to
staining with aqueous
based stains such as
the Gram stains.
5. The primary stain (carbol fuchin) binds to mycolic acids in the
cell wall of mycobacteria.
Intense decolourization ( strong acid or acid / alcohol ) does
not release the primary stain from the cell wall and the
mycobacteria retain the red colour of fuchsin –hence acid
fastness.
Counterstaining ( with methylene blue ) provides a contrasting
background.
6. SPECIMEN
A. PULMONARY
Sputum
BAL or washing
Brocho alveolar biopsies
B. EXTRAPULMONARY
Tissues
Body fluids
C. CULRURE ISOLATES
7. REAGENTS
1) 1% CARBOL FUCHSIN :-
Basic fuchsin 1.0 g
Phenol 5 g
Alcohol ( 95% or 100% ethanol) 10 ml
Distilled water 90ml
Take phenol crystals in a clean round bottom flask and melt
by using heating water bath
Add the ethanol to molten phenol.
8. Add basic fuchsin to the phenol – ethanol mixture and swirl
until all the crystals have completely dissolved
Add distilled water to the final mixture and then filter using
whattman filter paper No 1
NOTE :- Freshly filtered carbol fuchsin should be used for
staining.
Small quantities of staining reagent according to the work
load, may be filtered every day before use.
9. 2) Decolouring agent ( 25% SULPHURIC ACID –
100ml )
Concentrated sulphuric acid 25ml
Sterile Distilled water 75ml
o Carefully add concentrated sulphuric acid to water containing
round bottom flask.
oNOTE :-
Since it is an exothermic reaction , producing large quantity of
heat , the flask should be placed in a trough containing cold water.
Always add acid to water , and not vice versa as it is explosive.
10. 3) Counterstain ( 0.1% METHYLENE BLUE – 100ml )
Methylene blue chloride 0.1 g
Distilled water 100 ml
Dissolve the dye methylene blue chloride in distilled water and filter
it using whattman filter paper No 1.
NOTE :- The reagent bottles should be labelled of appropriately with
the batch number , date of preparation and date of expiry , reagents
should be used with in 3 months.
11. PROCEDURE
1. Label a clean glass slide at one end with the laboratory number.
2. Wear gloves and mask and open the specimen container in close
proximity of spirit lamp or use Biosafety cabinet.
3. Transfer an appropriate portion of the specimen to the central part of
slide by with an applicator stick.
4. Smear the specimen over an area of approx 2x3cm by making small
circles.
5. Allow smears to air dry.
12. 6. Fix the smear by passing through a flame 4-5 times. Allow it to cool
before staining.
7. Place the slide on the staining rack.
8. Flood the slide with 1% Carbol fuchsin and heat until steaming.
Avoid the boiling and drying of solution.
9. Rinse the slides with clean tap water.
10. Pour the decolorizing agent over smears. Drain off the decolorizing
agent and then rinse slides with tap water. The red color of smears
should disappear.
13. 11. Flood smears with 0.1% methylene blue solution for
1minute.
12. Rinse the slides with clean tap water.
13. Let the slides air dry.
14. INTERPRETATION OF ZN STAIN
Acid fast bacilli will
appear stained pink ,
straight curved rods
with blue background
due to methylene
blue.
15. Focus the slide under
oil immersion and scan
the smear from left to
right and observe a
minimum of 100 fields
before giving a
negative report.
17. Quality control
Internal QC of freshly made staining solutions :-
Take 1 slide of 3+ grade and 1 negative slide ( prepared by
using known positive and negative sputum sample ) as
unstained control smear.
Check every newly prepared staining solution with unstained
control smears , using atleast one positive.
18. Unacceptable control result :-
o PC , AFB are not stained strongly red or are clearly too few in
numbers.
o NC shows AFB .( possibly from contaminated water )
o Stain deposit is present on QC slide.
19. Internal QCof staining solutions in use and of
staining procedure :-
Include positive and negative controls with each day’s
reading . Read control slides before patients smears.
If results are unacceptable , re-stain smears of that day
together with new controls
If these controls are also unacceptable, prepare new staining
solutions and repeat the staining.
21. MODIFICATION OF AFB STAINING
KINYOUN’S COLD ACID FAST STAINING :-
It differs from ZN staining in that :-
1) Heating is not required
2) phenol concentration in carbol fuchsin is increased (8 g )
3) Duration of carbol fuchsin staining is more.
Uses- Detection of oocyst of Cyclospora spp , Cryptosporidium and
Isospora spp
23. 1) All of the following are acid – fast , except :
a) Mycobacterium
b) Nocardia
c) Cystoisospora belli
d) Staphylococcus
Ans :- D
24. 2) Which of the following is a defining characteristic of
acid fast bacteria?
a) A thin cell membrane made up of phospholipid
b) A thick layer of mycolic acid
c) A thin layer of peptidoglycan
d) A polypeptide layer surrounding the cell
membrane
Ans - B
25. 3) Concentration 0f sulfuric acid used for acid fast
staining for Mycobacterium leprae ?
a) 20 %
b) 5%
c) 25%
d) 0.5-1%
Ans :- B
26. 4) All are true about kinyoun’s method, except:
a) This method was developed by Joseph J. kinyoun
b) High concentration of phenol is used
C) Heat acts as physical mordant
d) this method is safer because phenol fumes are not
generated during staining procedure.
Answer : c
27. 5)Concentration of sulfuric acid used for acid fast
staining for Mycobacterium tuberculosis according to
RNTCP?
a) 25%
b) 20%
c) 5%
d) 0.5-1%
Ans - A