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1.Procedure for air sampling (environmental monitoring) in sterile pharmaceutical manufacturing
area
2 Maintenance of Primary Standards in Pharmaceutical Industries
3 Tapped Density Tester Setup, Operation, and Cleaning Guide
4. Growth Promotion Test
5. Identification of Environmental Flora
Procedure for air sampling (environmental monitoring) in sterile pharmaceutical manufacturing area
Procedure for air sampling in pharmaceuticals:1 Prepare SCDA medium and aseptically pour approximately 15 – 20 ml of
sterile molten cooled (400C) SCDA agar into sterile 90 mm petri plates.
2 Allow to solidify the plates at room temp, after solidification label all the plates with name of media, preparation batch No. and date of preparation.
3 Invert and incubate the plates at 30 to 350C for 24 - 48 hrs. After incubation check the plates for any contamination, if there is contamination discard the plates.
4 After pre-incubation, label all the plates with date of sampling, location and Shift with the help of marker pen and wrap with aluminium foil and then place in clean SS container.
5 Transfer the container and Air sampler which is sanitized and wrapped in aluminium foil, to sterile area through pass box and personnel must be entered through Air locks by proper entry and gowning procedure for sterile area.
6 Place the pre incubated SCDA plates in Air sampler holder and operate the air sampler for time to sample 1000 ltrs of air.
7 After complition of Air sampling, remove the plates from Air sampler, close the lid immediately and place aside.
8 Immediately clean the Air sampler with 70% sterile IPA solution and carry out the air sampling for other specified locations.
9 After air sampling collect all the plates in clean SS container and send to microbiology laboratory through hatch box. Follow the exit procedure to come out from sterile area.
10 Prepare positive control by streaking Bacillus subtilis and negative control as it is without streaking
11 Invert all the plates and incubate at 20 to 250C for 72 hrs and then 30 to 350C for 48 hrs.
12 After incubation, count the number of colony forming units and with the help of colony counter and express the result cfu/m3.
13 Record the result as per the following formula –
X = Pr X 1000/VWhere X = cfu/m3r = colony forming units counted on 90 mm plates
Pr = Probable count obtained by positive hole correction from table I against r valueV = Volume of air sample
Precaution
1 Maintain aseptic condition during air sampling
2 Sanitize Air sampler with 70% IPA solution for each location sampling
3 Result must be expressed as per the given formula
4 All pre-incubated plates should be rejected if a single plate shows evidence of microbial contamination.
Maintenance of Primary Standards in Pharmaceutical Industries
OBJECTIVE: To provide a procedure for maintenance of primary standards.
SCOPE: Applicable to all primary standards used for standardization of volumetric solutions and
calibration of instruments in the quality control laboratory.
RESPONSIBILITY: Chemist
PROCEDURE: Procure primary standard substances with the certificate of analysis.
Use these certified substances exclusively for the volumetric analysis or for calibration of
instruments or for appropriate critical tests only.
Transfer the substances from their original container into the glass vial of required size &
label it as follows.
Name: Write name of the primary standard.
B.No.: Write batch number of the primary substance as per the log book.
Prepared on: Write the date of transfer of the substance from its original container to the
vial.
Use before: Write the use before date as per the logbook.
Sign: Chemist transferring the substance shall sign.
Log book recordingLog book for primary standard contains following columns:
Prepared on B.No. Use before Prepared By Checked By
Prepared on: Write the date of transfer of the substance from its original container to the
vial.
B.No.: Write batch number as PX/nnn/yy, where X is serial number allotted for the
primary substance starting from one (this number is allotted on the basis of first number
for first in i.e. serial inclusion of the substance in use & the number will be permanently
allotted through out the life cycle of the substance requirement). nnn is serial number in
chronological order for the transfer of the substance, starting with 001. yy is year i.e. 04
for the year 2004, e.g. P1/001/04.
Use before: All the primary standard substances which are remaining in the vial shall be
discarded & replaced with the same substance from the original container every three
months or prior if required. Put the date of three months period from the prepared on
date.
Prepared By: Chemist transferring the substance shall sign.
Checked By: Chemist or designee cross checking the activity shall sign.
Dry the primary standard substances at appropriate temperature before use, if required.
Store the substance in well closed vials.
Keep the vials in desiccators over silica gel.
REFERENCE: Indian Pharmacopoeia.
Tapped Density Tester
OBJECTIVE:
To provide a procedure for the operation of Tapped Density Tester.
SCOPE: Applicable to the Tapped Density Tester in Quality Control Department.Model : ETD-1020Manufacturer: Electrolab
RESPONSIBILITY: Chemist.PROCEDURE: USER METHOD (this method is used only when no. of taps are specified in the method).
Check that all the connections of the instrument are proper.Weigh the sample & fill in a measuring cylinder of Tapped Density Tester.If sample weight is about 100g or above, use 250 ml measuring cylinder otherwise use 100 ml measuring cylinder.Fix the measuring cylinder into the holder provided for holding the measuring cylinder on the instrument.Power “ON” the instrument.The system will initialize itself and the display will flash and show the start up screen.
The system is now ready for Setting of the test Parameter and to run the Test.
Using the Digit Scroll key (on front panel) set the mode of operation as USER (In this
mode, the instrument will stop after the set value of taps).
Press the SET key to set the test parameter. The taps are programmable from 1 to 9999
taps.
By using the arrow keys set the tap value.
After setting the tap value, press the START key to start the test. The display will now
show the elapsed taps.
After tapping is complete, check the volume, set the similar number of taps again & run
the test once more.
Check the volume after second tapping cycle & calculate the difference between the two
volumes observed after tapping.
If this difference is not less than 2%, continue the tapping for one more cycle & this
activity shall be repeated until the difference between succeeding measurements is less
than 2%.
After the test is complete, calculate the tapped density using final volume observed.
USP METHOD:Using the Digit Scroll key, set the mode of operation as USP.
Press the Method key to toggle between USP-I (drop of 14mm 2mm at speed of 300
drops per minute) & USP-II (drop of 3mm 10% at speed of 250 drops per minute)
method & select required method.
Weigh the sample & fill in a measuring cylinder of Tap Density Tester.
If sample weight is about 100g or above, use 250 ml measuring cylinder otherwise use
100 ml measuring cylinder.
Fix the measuring cylinder into the holder provided for holding the measuring cylinder on
the instrument.
Press start key & feed the weight of the sample & press enter.
Fill the value of initial volume & press enter.
Press start key to start the taps.Tapping will automatically be stopped after 500 taps.
Fill the value of volume observed after tapping.
Press start key.
Tapping will automatically be stopped after 750 taps.
Fill the value of volume observed after tapping & press enter.
Difference between two succeeding measurements is displayed.
If this difference is not less than 2%, press START to continue.
Tapping will automatically be stopped after 1250 taps.
Repeat steps 4.2.12 to 4.2.14. till difference between two succeeding measurements is
less than 2%.
Switch off the instrument after the test is over.
Remove the cylinder, clean it & store in its box.
Tapped Density Tester Setup, Operation, and Cleaning Guide
1. Setup1.1. Turn on the equipment with the switch on the left side of the back of the instrument.1.2. Take out both 100 mL graduated cylinders with the lip on the top.1.3. Prepare each cylinder1.3.1. Record the weight of the empty cylinder.1.3.2. Pour the powder into the cylinder (through a 1.00 mm sieve, if possible),preferably somewhere between the 90 and 100 mL marks.1.3.3. Record the weight of the full cylinder.1.3.4. Calculate the mass of powder by subtracting the weight of the empty
cylinder from the weight of the full cylinder.1.4. Record the initial volume of powder in the graduated cylinder.1.4.1. Calculate the bulk density of the powder by dividing the mass of powderby the initial volume of powder.1.5. Place each cylinder on the mounts, all the way underneath the prongs.2. Operation2.1. Choose how the taps will be done with the Time/Count button. Pressing this buttonwill illuminate the corresponding light on the display.2.1.1. Time: a desired amount of time for tapping can be entered in the formathh:mm:ss. Press Enter after putting in the time.OR2.1.2. Count: a desired number of taps can be entered, up to 999,999. PressEnter after putting in the number of taps.2.1.2.1. One method is to start with one tap, and double the number of taps eachtime until the powder volume no longer changes.2.2. Press Start/Stop to begin tapping. The machine will automatically stop when it hascompleted the specified time or number of taps. If you need to stop the test beforeit is complete, press the Start/Stop button again to immediately stop the tapping.2.3. Shut the acoustic cabinet while tapping to reduce the noise.2.4. After each set of taps, record the volume of powder. Divide the initial mass by thevolume to determine the density. When this density no longer changes withincreasing the number of taps, this is the tapped density of the powder.2.4.1. One way to determine if you have reached the tapped density is to plotthe density versus the total number of taps. The density where the curvelevels off is the tapped density.3. Cleaning3.1. Turn off the instrument.3.2. Remove the powder from the cylinders, and take the waste with you.3.3. Wash the cylinders with water, and make sure they are completely free of powder.3.4. Set the wet cylinders by the sink to dry.
Growth Promotion Test
1.0 ObjectiveObjective of this Standard Operating Procedure is to provide guidelines for Growth Promotion Test and Inhibitory Properties of the Media.
2.0 ScopeThis procedure is applicable for all the dehydrated culture media to be used for microbiological testing.3.0 Responsibilities
Implementation : Microbiologist Execution : Dy. Manager – QC Review & Approval : AGM – QA / QC
4.0 Abbreviation SOP : Standard Operating ProcedureQA : Quality AssuranceQC : Quality ControlNA : Not ApplicableWFI : Water for InjectionLAF : Laminar Air Flow
5.0 Procedure5.1 Equipments required
LAFColony CounterIncubatorsDHSAutoclave
5.2 Material RequiredDehydrated culture media Sterile Saline solutionSterile Petri PlatesMeasuring Cylinder
Test organism – E. coli, Staph. aureus, Ps. aeruginosa, C. albicans, A. niger, Salmonella. B. subtilis, Cl. Sporogenes, S. epidermidis. 5.3 Utilities RequiredPower5.4 Methodology5.4.1 After receipt of dehydrated culture media, make a necessary entry in receipt register including B. No, Mfg date and use before date.
5.4.2 Collect minimum 5.0 g sample from each received packs (i.e. Batch wise) and mix properly.
5.4.3 Prepare culture media & sterilize as per SOP for preparation of culture media SOP.
5.4.4 After sterilization, transfer the media to microbiology analysis room and allow it to cool at 40 to 450C.
5.4.5 Start the LAF as per SOP and further proceed works under LAF.
5.4.6 Test For Growth Promoting Properties, Solid Media5.4.6.1 Label the plates with culture name, Media B. No, Date of incubation
on the base of petri plates5.4.6.2 Add 1.0 ml suspension of specific culture containing 10 to 100 cfu/ml
(as specified in Table – I) into two sterile petri plates.5.4.6.3 Aseptically pour the cooled media at 40 to 450C into both the labeled
plates, mix the plates by gently rotating clock wise and anti-clock wise direction.
5.4.6.4 Allow the plates to solidify at room temperature under Laminar Air Flow.
5.4.6.5 Simultaneously run negative control to verify testing conditions, using the same procedure in place of the test organism use diluents i.e. 1.0 ml of saline solution
5.4.6.6 Incubate the plates at specified temperature and period as listed in Table – 1,
5.4.6.7 Observe the plates for number of colonies, and count the cfu observed on both plates and express the result in cfu by following formulaP1 + P2 / 2Where P1 and P2 are plate 1 and plate 2
5.4.6.8 Calculate the Microbial recovery in percentage by following equation –
5.4.6.9 Recovery should not less than 75%
5.4.7 Test For Growth Inhibitory Properties, Solid Media
5.4.7.1 Label the plates with culture name, Media B. No, Date of incubation on the base of petri plates.
5.4.7.2 Add 1.0 ml suspension of specific culture containing 100 cfu/ml (as specified in Table – I of Growth inhibitory property) into two sterile petri plates.
5.4.7.3 Aseptically pour the cooled media at 40 to 450C into both the labeled plates, mix the plates by gently rotating clock wise and anti-clock wise direction.
5.4.7.4 Allow the plates to solidify at room temperature under Laminar Air Flow.
5.4.7.5 Incubate at specified temperature and period as listed in Table – 1, 5.4.7.6 Observe the plates for number of colonies, No growth of the test
organism occurs.5.4.8 Test For Growth Promoting and Inhibitory Properties, liquid
Media5.4.8.1 Prepare required quantity of liquid culture media, dispense 100 ml in
test tubes and sterilize as per manufacturers instruction.
% Recovery =Mean cfu observed X 100Inoculated cfu
ml
5.4.8.2 After sterilization, transfer the media to microbiology analysis room and allow it to cool at room temperature.
5.4.8.3 Start the LAF as per SOP and proceed further work under LAF5.4.8.4 Add 1.0 ml of positive culture of Growth promoting properties,
containing 100 cells (as per table – 1) into broth tube and label with Media B. No, name of positive culture & date of inoculation.
5.4.8.5 For Growth Inhibitory Test, add 1.0 ml of positive culture of Growth inhibitory properties, containing 100 cells ( as per table – 1) into broth tube and label with Media B. No, name of positive culture & date of inoculation.
5.4.8.6 Simultaneously run negative control to verify testing conditions, using the same procedure in place of the test organism use diluents i.e. 1.0 ml of saline solution
5.4.8.7 Incubate all the tubes at specific temperature as specified in table –1.5.4.8.8 Daily observe the tubes for growth for turbidity.5.4.8.9 Satisfactory growth should be observed within 3 days of incubation in
the test. There should not be growth in growth inhibitory test & negative control.
5.4.8.10 In case the media passes the growth promotion test, a Approved label shall be affixed on
the media container, then the same should be used for analysis.5.4.8.11 In case the media fails for the growth promotion test then a rejected
label shall be affixed on the container then the same shall be rejected and accordingly the rejection entry should be made in the stock register.5.4.8.12 The rejected media should be discard or returned back to the supplier.
5.4.8.13 The specimens of the Receipt, Sampled, Approved and Rejected label are attached in Annexure5.5 Precaution
5.5.1 The dehydrated culture media as well as their ingredients are highly hygroscopic and must be stored in a cool dry place away from bright light. These media are meant for laboratory use only and shall never be used for human or animal consumption.5.5.2 Use fresh sterile pipette for each transfer.5.5.3 The medium to be poured in Petri plates should have a temperature of 40 - 450C.
5.5.4 The plates should be incubated in an inverted position to prevent collection of condensation on the plate surface.
5.5.5 If any spillage of cultures, immediately wash with 70% IPA solution.5.5.6 Entire operation inside the microbiology room should be carried out
under the laminar airflow chamber using gas burner.5.5.7 Examine the physical nature of the dehydrated medium. If any unusual
colour, odour or physical appearance is noticed, discard the medium. 5.5.8 Always use a dry spoon or spatula for weighing the dehydrated media.
The weighing operation shall be completed as quickly as possible to
prevent absorption of moisture by the hygroscopic contents. Wear a face mask while weighing the dehydrated media to avoid inhalation of fine particles of media.5.5.9 All dehydrated media must be retest after the release of three months interval and finally media must be discarded after release of one year.
Table - 1
Name of Media
Positive culture to
be used for Growth
Promotion Test
Positive culture to be used
for Growth
Inhibitory Test
Expected growth
characteristics of the test organism for
the respective media
Incubation temperatur
e
Incubation period
Fluid Thioglycollat
e Medium
B. subtilis NCIM 2063
Ps.aeruginosa NCIM 2200
S.aureus NCIM 2079
NA -Growth (Turbidity)
Observed in the respective
media tubes
30 to 350C 72 hrs
Soybean Casein digest
Medium
B. subtilis NCIM 2063C.albicans NCIM 3471
A. niger NCIM 1196
NA -Growth (Turbidity)
Observed in the respective
media tubes
20 to 250C 72 hrs
Soybean Casein digest
Agar
E.coli NCIM 2065
Ps.aeruginosa NCIM 2200
S.aureus NCIM 2079
NA -Opaque white colonies on
SCDA Plates
-Large greyish colonies on
SCDA Plates
-Tiny white colonies on
SCDA Plates
30 to 350C 48 hrs
MacConkey Agar
E.coli NCIM 2065
S.aureus NCIM 2079
- Brick red colonies
30 to 350C 48 hrs
Name of Media
Positive culture to
be used for Growth
Promotion Test
Positive culture to be used
for Growth
Inhibitory Test
Expected growth
characteristics of the test organism for
the respective media
Incubation temperatur
e
Incubation period
on MacConkey Agar Plates
MacConkey broth
E.coli NCIM 2065
S.aureus NCIM 2079
- Yellow colour change
30 to 350C 48 hrs
Name of Media
Positive culture to
be used for Growth
Promotion Test
Positive culture to be used
for Growth
Inhibitory Test
Expected growth
characteristics of the test organism for
the respective media
Incubation temperatur
e
Incubation period
Mannitol salt Agar
S.aureus NCIM 2079
E.coli NCIM 2065
- Yellow colonies
on Mannitol Salt Agar Plates
30 to 350C 48 hrs
Cetrimide agar
Ps.aeruginosa NCIM 2200
E.coli NCIM 2065
- Greenish Colonies
on Cetrimide Agar
Plates
30 to 350C 48 hrs
Antibiotic assay
Medium No. 11
S. epidermidis NCIM 2493
NA - Good Luxuriant
colonies on the respective
media Plates
30 to 350C 24 hrs
Peptone water
E.coli NCIM 2065
NA Luxuriant (Turbid)
growth in the respective
media tubes
30 to 350C 48 hrs
Sabourauds Dextrose
Agar
C.albicans NCIM 3471
NA -white colonies on
Sabourauds Dextrose
22 to 250C 120 hrs
Agar PlatesSelenite F
brothSalmonella abony NCIM
2257
S.aureus NCIM 2079
-Red ppt. observed
in the Selenite F broth
30 to 350C 24 hrs
EMB agar E.coli NCIM 2065
S.aureus NCIM 2079
- Blue – Black colonies
with metallic sheen on
EMB Agar Plates
30 to 350C 24 hrs
Brilliant green agar
Salmonella abony NCIM
2257
S.aureus NCIM 2079
- Opaque pinkish to
white colonies on
Brilliant green agar Plates
30 to 350C 48 hrs
Nutrient Broth
E.coli NCIM 2065
NA -Good Luxuriant (Turbid) growth
Observed.
30 to 350C 24 hrs
Name of Media
Positive culture to be used
for Growth
Promotion Test
Positive culture to be
used for Growth
Inhibitory Test
Expected growth
characteristics of the
test organism
for the respective
media
Incubation
temperature
Incubation
period
Triple sugar Iron
agar
Salmonella abony
NCIM 2257
S.aureus NCIM 2079
-Red and Yellow butt
(With or without
blackening)
30 to 350C 48 hrs
Vogel Johnson
Agar
S.aureus NCIM 2079
E.coli NCIM 2065
- Black Colonies on
Vogel Johnson
Agar Plates
30 to 350C 48 hrs
Baired Parker Agar
S.aureus NCIM 2079
E.coli NCIM 2065
- Black Colonies
surrounded by a
clear zone
30 to 350C 48 hrs
Pseudomonas agar(For Fluorescein
)
Ps.aeruginosa NCIM
2200
S.aureus NCIM 2079
- Yellowish Colonies
on Pseudomona
s Agar Plates
30 to 350C 72 hrs
Pseudomonas agar(For Pyocyanin)
Ps.aeruginosa NCIM
2200
S.aureus NCIM 2079
- Greenish Colonies
on Pseudomona
s Agar Plates
30 to 350C 72 hrs
Urea broth Salmonella abony
NCIM 2257
S.aureus NCIM 2079
-Luxuriant growth with no colour change
Observed in the
respective media tubes
30 to 350C 24 hrs
Tetrathionate Brilliant Green Bile
Broth
Salmonella abony
NCIM 2257
S.aureus NCIM 2079
-White ppt. observed
in the TBGB broth tubes
30 to 350C 24 hrs
Bismuth sulphite
agar
Salmonella abony
NCIM 2257
S.aureus NCIM 2079
- Black or green
Colonies on Bismuth
Sulphite Agar Plates
30 to 350C 48 hrs
Xylose lysine
deoxycholate agar
Salmonella abony
NCIM 2257
S.aureus NCIM 2079
- Red Colonies on
Xylose lysine deoxycholate
Agar
30 to 350C 48 hrs
5.6 Frequency5.6.1 For each batch of consignment
Identification of Environmental Flora
1.0 ObjectiveObjective of this Standard Operating Procedure is to provide guidelines for Gram Staining of in house isolates (Manufacturing Area Environmental Flora).
2.0 ScopeThis procedure is applicable for Gram Staining of in house isolates (Manufacturing Area Environmental Flora) of microbial flora observed during monitoring of manufacturing area.
3.0 ResponsibilitiesImplementation : Microbiologist Execution : Dy. Manager – QC Review & Approval : AGM - QA / QC
4.0 Abbreviation SOP : Standard Operating ProcedureQA : Quality AssuranceQC : Quality Control
NA : Not Applicable5.0 Procedure5.1 Equipments required
MicroscopeLAF
5.2 Material RequiredloopSlidesCover slipImmersion oilGram stain Kit
5.3 Utilities RequiredLPG Electricity
5.4 Methodology5.4.1 Cultural Characteristics:
5.4.1.1 Select the unknown culture plate (microbial flora observed in sterile area environment).
5.4.1.2 Examine the plate for Colony characteristic as per Table - I and record the characteristic.
Table-I Colony Characteristics
5.4.1 Gram Staining5.4.1.1 Prepare a thin smear of microbial culture observed in sterile
environment, dry in air and fix by gentle heat.5.4.1.2 Hold the slide in slide rack near to ss tray and flood with Gram’s
Crystal Violet (HiMedia S012) for 1 minute.5.4.1.3 Wash with water and flood with Gram’s Iodine (HiMedia S013) for 1
minute.5.4.1.4 Wash with water and decolourize with Gram’s Decolorozer (S032)
until no further violet colour comes off.5.4.1.5 Wash with water and counter stain with 0.5% safranin (HiMedia S027)
for about 1 minute.5.4.1.6 Wash with water, dry and observe under oil immersion objective.5.4.1.7 Those bacteria that appear purple or violet colour are referred as
Gram Positive; those appearing pink colour are described Gram Negative.
Table-II Morphological Characteristic
5.4.1.1 After observing morphological characteristics record the observation.5.5 Precaution5.5.1 All preparation should be carried out under LAF of Microbiology room.5.5.2 Use nose mask and hand gloves while working with microbial cultures.
5.5.3 After completion of work wash your hand with disinfectant solution.5.6 FrequenciesDaily or as soon as colony observed in sterile area environment.