Sterilisation-
Is the process of making something free from bacteria or other living microorganisms.
Sterility Testing-
Are done to detect if viable forms of micro-organisms are present or not on or in the pharmaceutical preparations.
Use of mutants in understanding seedling development.pptx
Sterility Testing of Products
1. Mr. S. P. Shinde
Assistant Professor
Pune, Maharashtra.
2. Mr. S. P. Shinde 2
Sterilisation
Is the process of making something free from bacteria or other living
microorganisms.
Sterility Testing
Are done to detect if viable forms of micro-organisms are present or not on or
in the pharmaceutical preparations.
Introduction
3. Mr. S. P. Shinde 3
Products which are necessary to be sterilized:
Injections
Implants
Syringes
Ophthalmic preparations
Ointments & creams
Bandages
Surgical dressings & devices
Needles
6. Mr. S. P. Shinde 6
Sterility Test for Pharmaceutical Products
The wide-spectrum of pharmaceutical products (both pure as well as dosage
forms) may be achieved by adopting any one of the two well-recognized, time-
tested and universally accepted methods
1) Membrane filtration
2) Direct inoculation
7. Mr. S. P. Shinde 7
o The membrane filtration method is used for avoiding and also overcoming
the activity of antibiotics for which practically little inactivating agents
exist.
o Following conditions should be fulfilled for the membrane filtration
method:
1) An exceptional skilled and knowledgeable operators.
2) Rigorous routine usage of positive and negative controls.
The salient features of membrane filtration method are:
1) Solution of the product under analysis is filtered via hydrophobic-edged
membrane filter which effectively retains the contaminating microbes.
2) The resulting membrane is washed in situ to remove 'traces of antibiotic'
adhered to the membrane surface.
3) The segregated microorganisms are aseptically transferred to the culture
media.
1) Membrane Filtration
9. Mr. S. P. Shinde 9
a. Culture Media
1) Fluid Thioglycolate Medium: This medium is used for clear fluid products.
Ingredients Quantity (g)
1. L-Cystine
2. Sodium chloride
3. Dextrose
4. Granular agar
5. Yeast-extract (water soluble)
6. Pancreatic digest of casein
7. Sodium thioglycollate or
8. Thioglycollic acid
9. Resazurin (0.1% fresh solution)
10. Distilled water upto
0.5
2.5
5.5
0.75
5.0
15.0
0.5
0.3 ml
1.0 ml
1000 ml
Table- 01
10. Mr. S. P. Shinde 10
2) Alternative Thioglycolate Medium: This medium is used for turbid and viscid
products as well as for devices with tubes of small lumina.
Ingredients Quantity (g)
1) L-Cystine
2) Sodium chloride
3) Dextrose
4) Yeast-extract (water-soluble)
5) Pancreatic digest of casein
6) Sodium thioglycollate or
7) Distilled water
0.5
2.5
5.5
5.0
15.0
0.5
1000ml
3) Fluid Soyabean-Casein Digest Medium: This media is prepared by dissolving
solids in distilled water followed by slight warming. The solution is cooled to room
temp. and if necessary sufficient amount of 0.1M NaOH is added to give a final pH
of 7.1 ±0.2. Solution is sterilised in an autoclave at 121°C for 20 minutes.
Ingredients Quantity (g)
1) Pancreatic digest of casein
2) Papaic digest of soyabean meal
3) Sodium chloride
4) Diabasic potassium phosphate
5) Dextrose monohydrate
6) Distilled water
17.0
3.0
5.0
2.5
2.5
1000ml
Table- 02
Table- 03
11. Mr. S. P. Shinde 11
b. Test Organisms
The test microbes for various media and their incubation conditions are
mentioned in table
Medium
Test Microorganisms
(Strains Specified in I.P.)
Incubation
Temperature (0C) Condition
Fluid Thioglycolate
1) Bacillus subtilis
2) Candida albicans
3) Bacteroides vulgatus
30 to 35
30 to 35
30 to 35
Aerobic
Aerobic
Aerobic
Alternative Thioglycolate Bacteroides vulgatus 30 to 35 Anaerobic
Soybean-Casein Digest
1) Bacillus subtilis
2) Candida albicans
20 to 25
20 to 25
Aerobic
Aerobic
Table- 04
12. Mr. S. P. Shinde 12
c. Precaution to be Taken
o The sterility tests should be performed under highly specific experimental
parameters to avoid even least possibility of accidental contamination of
the product under analysis.
The precautionary measures to be taken are:
1) A sophisticated laminar sterile airflow cabinet provided with effective
HEPA filters should be used.
2) Necessary steps should be taken to avoid contamination that they do not
affect any microbes need to be revealed in the test.
3) The environmental or working conditions in the laboratory where the
sterility tests are being performed should be monitored timely by:
i. Sampling the air of working area,
ii. Sampling the surface of working area,
iii. Performing the specified control tests.
13. Mr. S. P. Shinde 13
The most suitable apparatus consists of a closed reservoir and a receptacle
between which a properly supported membrane of appropriate porosity is
present. Some other features of the apparatus are:
1) A membrane suitable for sterility testing has a pore size of 0.45um or less
and diameter of around 47mm. The efficiency of membrane in retaining
microbes has been satisfactorily established.
2) The whole unit is assembled and sterilised with the membrane prior to use.
3) If the sample to be used is oil, the membrane is sterilised separately,
thoroughly dried and then the unit is assembled taking the required aseptic
precautionary measures.
d. Apparatus
14. Mr. S. P. Shinde 14
In sterility test, the following two types of fluids are used:
1) Fluid A: 1gm of peptic digest of animal tissue is dissolved in water and
volume is adjusted to 1000ml. The solution is filtered or centrifuged and pH
is adjusted to 7.1 +0.2. The resultant solution is dispensed in 100ml flasks
and autoclaved at 121°C for 20 minutes.
2) Fluid B: If the test sample contains either oil or lecithin, fluid B is used. To
each litre of fluid B, 1 ml of polysorbate 80 has been added. Fluid B
contains associated fatty acids and is used in preparing pharmaceuticals.
After adjusting its pH to 7.1 +0.2, it is dispensed into flasks and autoclaved
at 121°C for 20 minutes.
e. Dilution of Fluids
15. Mr. S. P. Shinde 15
1) For Injectable Preparations: All the contents of the container should be used
as a routine practice and wherever possible. However, not less than the
quantities, dilutions are made to 100ml with an appropriate sterile diluents.
Type of
Preparation
Quantity in Each Container
of Injectable
Minimum Quantity Recommended
for Each Culture Medium
1) For
Liquids
a) Less than 1ml
b) 1ml or more but < 4ml
c) 4ml or more but < 20ml
d) 20ml or more but < 100ml
e) 100ml or more
a) Total contents of a container
b) Half the contents of a container
c) 2ml
d) 10% of the contents of a container
unless otherwise specified duly in
the ‘monograph’
e) Not less than half the contents of a
container unless otherwise
specified in the ‘monograph’
2) For
Solids
a) Less than 50mg
b) 50mg or more but <200mg
c) 200mg or more
a) Total contents of a container
b) Half the contents of a container
c) 100mg
f. Quantities of Sample to be Used
Table- 05
16. Mr. S. P. Shinde 16
2) For Ophthalmic and other Non-Injectable Preparations: In this case, an
amount lying within the range prescribed in Column (A) of table is used,
using the contents of more than one container and mixing thoroughly. For
each medium the amount specified in column (B) of table should be taken
from the mixed sample.
Type of Preparation
Quantity to
be Mixed
(A)
Quantity to be
Used for Each
Culture Medium
(B)
1) Ophthalmic Solutions: Other non-injectable
liquid preparations
2) Other Preparations: Preparations soluble in
water appropriate solvents; insoluble
preparations to be suspended or emulsified
duly (e.g. creams and ointments).
3) Absorbent cotton
10-100ml
1-10gm
5-10ml
0.5-1gm
Not less than 1gm
Continue…
Table- 06
17. Mr. S. P. Shinde 17
1) Aqueous Solutions:
i. Each membrane is prepared by aseptically transferring a small amount of
fluid A to the membrane to moisten it and then filtering it.
ii. The liquid is quickly sucked in via membrane filter under vacuum .
iii. If the solution under analysis has significant antibacterial features, the
membrane is washed thrice by filtering through it approximately 100ml of
sterile fluid A each time.
iv. The quantities of fluid A used should be sufficient enough to allow growth
of small inoculum of microorganisms on the membrane.
v. After filtration, the membrane is aseptically removed from the holder and
cut into half; one half is immersed in 100ml of fluid soyabean-casein digest
medium and incubated at 20-25°C for a week.
vi. Similarly the other half of the membrane is immersed in 100ml of fluid
thioglycolate medium and incubated at 30-35°C for a week.
g. Test Procedures
18. Mr. S. P. Shinde 18
2) Liquids Immiscible with Aqueous Vehicles and Suspensions: The steps
followed for sterility test of such preparations are similar to those for
aqueous solutions but a sufficient amount of fluid A is added to the pooled
sample for rapid filtration rate.
3) Oils and Oily Solutions:
i. Oils or oily solutions of low viscosity are filtered via dry membrane.
ii. The viscous oils should be diluted using a sterile diluents.
iii. The oil is allowed to penetrate the membrane and then filtered by applying
gradual suction using a vacuum pump.
iv. The membrane is washed by filtering through it atleast 3/4 successive
quantities, each of around 100ml of sterile fluid B or any other sterile
diluents.
v. The next steps are as described above for aqueous solutions [from step
(v)].
Continue…
19. Mr. S. P. Shinde 19
4) Ointments and Creams:
i. Ointments are diluted either in a fatty base or w/o emulsions to yield a
fluid of 1% w/v concentration. This can be done by gently heating to 40°C
with a sterile diluent.
ii. Filtration is performed rapidly as described for the oils and oily solutions
[from step (ii)]
iii. However sometimes it becomes a necessity to heat the substance to 45°C
and using such warm solutions for rinsing the membrane effectively.
5) Soluble Solids:
For each individual culture medium, the substance under analysis is
dissolved in a sterile solvent (e.g. fluid A). Then the test is preceded as for
aqueous solutions by using a membrane suitable for selected solvents.
6) Sterile Devices:
A sufficient volume of fluid B is aseptically passed through 20 devices so
that atleast 100ml is recovered from each device. The recovered fluids are
collected in sterile containers and together filtered via membrane filter
funnel as described for aqueous solutions.
Continue…
20. Mr. S. P. Shinde 20
1) No bacterial growth during or after the incubation period indicates the
preparation has passed the test.
2) In case of bacterial growth, the test is repeated with the containers showing.
3) The preparation is assumed to pass the test if bacterial growth does not
occur after the first re-test.
4) However in case growth is observed in the re-test, the organisms are
isolated and identified.
5) If these organisms are not readily distinguishable from those observed in
the first test, the preparation is considered to fail the test.
6) On the other hand, if the organisms are distinguishable from the ones
observed in the first test, a second re-test is performed using twice the
number of samples.
7) If bacterial growth does not occur, the preparation passes the test; while it
fails if growth is observed.
h. Observation and Interpretation of Results
21. Mr. S. P. Shinde 21
o The test article is directly inoculated into two types of media to allow for
the detection of both aerobic and anaerobic microorganisms.
o After inoculation, both media types are incubated for 14 days.
o Intermittent observations as well as a final observation at the end of the
testing period are conducted to detect evidence of microbial contamination.
Following three culture media are commonly used to perform the tests for
sterility:
1) Nutrient Broth: This medium is used for aerobic microorganisms and
have the following features:
a) The value of redox potential of this medium is too high to allow the
growth of anaerobes.
b) The culture medium, such as soyabean casein digest broth, Hartley's
digest broth only allows the fastidious microorganisms to grow.
2) Direct Inoculation
22. Mr. S. P. Shinde 22
2) Cooked Meat Medium and Thioglycollate Medium: These two media
are discussed as follows:
a) Cooked Meat Medium: This medium is used for culturing Clostridia.
b) Thioglycollate Medium: This medium is used for anaerobic
microorganisms and contains the following ingredients:
3) Sabouraud Medium: This medium is mainly used for fungal species and
has the following characteristic features:
i. It is an acidic medium
ii. It contains glucose or maltose (a rapidly fermentable carbohydrate).
Ingredients Purpose
1) Glucose Energy source.
2) Sodium
thioglycolate
Inactivate mercury compounds,
Enhance and promote reducing parameters
Act as a redox indicator.
3) Agar Reduces the resultant 'convection currents'.
Table- 07
23. Mr. S. P. Shinde 23
The exact quantity of the pharmaceutical preparation to be examined (i.e. to be
used for inoculation in the culture media) varies as per the amount present in
each container.
a. Quantities of Sample to be Used
b. Test Procedures
1) Aqueous Solutions and Suspensions:
The steps involved are:
i. Liquid from the test containers are removed using a sterile pipette or a
sterile syringe or needle.
ii. The required volume of the substance is aseptically transferred from each
container to the culture medium vessel.
iii. The liquid is mixed with the medium in such a way that aeration does not
occur.
iv. The inoculated media is incubated at 30-35°C for fluid thioglycollate
medium and 20-25°C for soyabean-casein digest medium for at least 2
weeks [unless it is specifically mentioned in the monograph (Official
Compendia i.e. BP, USP, Int. P., IP., Eur. P.)].
24. Mr. S. P. Shinde 24
2) Oils and Oily Solutions: The microbial contamination tests for oils and oily
solutions are carried out using a culture media containing 0.1% (w/v) solution
of Octoxynol or Octylphenoxy polyethoxyethanol (I).
3) Ointments:
i. The test sample is prepared by diluting 10 times with a sterile diluent,
e.g. fluid B or any other suitable aqueous vehicle.
ii. 10ml of the resultant fluid mixture is mixed with 80ml medium and the
further steps are same as described for aq. solutions and suspensions.
4) Solids:
i. The required amount of preparation under analysis is transferred to and
mixed with the quantity of culture medium specified in table-06.
ii. The inoculated media is incubated as for aq. solutions and suspensions.
5) Sterile Devices: These devices are completely immersed in not more than
1000ml of the culture medium and incubated as for aq. solutions and
suspensions.
25. Mr. S. P. Shinde 25
1) The media should be thoroughly examined for bacterial growth during the
incubation period.
2) If bacterial growth does not occur, the preparation is said to pass the test.
3) If growth is observed, the containers showing growth are reserved and thus the
test is considered invalid.
4) In such cases, the test is repeated using samples and media used in the first test.
5) If after the re-test, bacterial growth is not observed, the preparation is
considered to pass the test.
6) If any evidences of bacterial growth are observed, the organisms are isolated
and identified.
7) If these organisms are not distinguishable from those observed in the first test,
the preparation is considered to fail the test.
8) On the other hand, if the organisms are distinguishable from the ones observed
in the first test, a second re-test is performed using twice the number of
samples.
9) If bacterial growth is not observed in the 'second re-test', the preparation passes
the test; while it fails if any bacterial growth is observed.
c. Observation and Interpretation of Results