Office of Pesticide Programs Microbiology Laboratory Environmental Science Center, Ft. Meade, MD Standard Operating Procedure for Germicidal Spray Products as Disinfectants (GSPT): Testing of Staphylococcus aureus, Pseudomonas aeruginosa, and Salmonella enterica SOP Number: MB-06-09 Date Revised: 09-29-17


US Environmental Protection Agency
Office of Pesticide Programs

Office of Pesticide Programs

Microbiology Laboratory

Environmental Science Center, Ft. Meade, MD

Standard Operating Procedure for
Germicidal Spray Products as Disinfectants
(GSPT): Testing of Staphylococcus aureus,
Pseudomonas aeruginosa, and Salmonella enterica

SOP Number: MB-06-09
Date Revised: 09-29-17

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SOP No. MB-06-09
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SOP Number

MB-06-09

Title

Germicidal Spray Products as Disinfectants (GSPT): Testing of
Staphylococcus aureus, Pseudomonas aeruginosa, and Salmonella
enterica

Scope

Describes the germicidal spray products test methodology (see 15.1)
to determine efficacy of spray formulations against Staphylococcus
aureus, Pseudomonas aeruginosa, and Salmonella enterica on hard
surfaces.

Application

The methodology described in this SOP is used to evaluate the
performance of spray formulations (pump, trigger, aerosols) against
the prescribed test microbes.





Approval Date

SOP Developer:



Print Name:

SOP Reviewer



Print Name:

Quality Assurance Unit



Print Name:

Branch Chief



Print Name:





Date SOP issued:



Controlled copy
number:



Date SOP withdrawn:

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SOP No. MB-06-09
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TABLE OF CONTENTS

Contents	Page Number

1.

DEFINITIONS

3

2.

HEALTH AND SAFETY

3

3.

PERSONNEL QUALIFICATIONS AND TRAINING

3

4.

INSTRUMENT CALIBRATION

3

5.

SAMPLE HANDLING AND STORAGE

3

6.

QUALITY CONTROL

3

7.

INTERFERENCES

3

8. NON-CONFORMING DATA

3

9.

DATA MANAGEMENT

4

10.

CAUTIONS

4

11.

SPECIAL APPARATUS AND MATERIALS

4

12.

PROCEDURE AND ANALYSIS

5

13.

DATA ANALYSIS/CALCULATIONS

10

14.

FORMS AND DATA SHEETS

10

15.

REFERENCES

11

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1. Definitions

Abbreviations/definitions are provided in the text.

2. Health and
Safety

Follow procedures specified in SOP MB-01, Laboratory Biosafety. The Study
Director and/or lead analyst should consult the Safety Data Sheet for specific
hazards associated with products.

3. Personnel
Qualifications
and Training

Refer to SOP ADM-04, OPP Microbiology Laboratory Training.

4. Instrument
Calibration

Refer to SOPs EQ-01 (pH meters), EQ-02 (thermometers), EQ-03 (weigh
balances), EQ-04 (spectrophotometers) and EQ-05 (timers).

5. Sample

Handling and
Storage

Refer to SOP MB-22, Preparation and Sampling Procedures for Antimicrobial
Test Substances, and SOP COC-01, Chain of Custody Procedures.

6. Quality Control

For quality control purposes, the required information is documented on the
appropriate form(s) (see section 14).

7. Interferences

1.	Any disruption of the Pseudomonas aeruginosa pellicle resulting in the
dropping or breaking of the pellicle in culture before or during its removal
renders that culture unusable.

2.	Prior to inoculation, ensure that the carriers are dry (inside Petri dishes).
Moisture can interfere with the concentration and drying of the inoculum
on the glass slide carrier.

3.	Do not use any inoculated carrier that is wet at the conclusion of the
carrier drying period.

4.	For neutralizes/subculture media that do not result in turbidity as the
outcome of growth, such as Dey/Engley broth, assess the interpretation of
a positive tube in advance of the test (see section 12.7.c).

8. Non-
conforming
Data

1.	Sterility and/or viability controls do not yield expected results.

2.	The mean log density for control carriers falls outside the specified range.

Note: The prescribed minimum and maximum carrier counts also account

for the addition of 5% organic soil to the inoculum.

a.	The mean TestLD for carriers inoculated with S. aureus and P.
aeruginosa must be at least 5.0 (corresponding to a geometric mean
density of 1.0 x 105) and not above 6.5 (corresponding to a geometric
mean density of 3.2 x 106).

b.	The mean TestLD for carriers inoculated with S. enterica must be at
least 4.0 (corresponding to a geometric mean density of 1.0 x 104)
and not above 5.5 (corresponding to a geometric mean density of 3.2
x 105).

3.	No contamination is acceptable in the test system.

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4. Management of non-conforming data will be specified in the study
protocol; procedures will be consistent with SOP ADM-07, Non-
Conformance Reports.

9. Data

Management

Data will be archived consistent with SOP ADM-03, Records and Archives.

10. Cautions

1.	There are time sensitive steps in this procedure including the use periods
of the inoculated carriers and the test chemical. Strict adherence to the
procedure is necessary for validity of test results.

2.	Verify the volume of dilution blanks, neutralizer tubes, and subculture
tubes in advance and adjust accordingly.

3.	To ensure the stability of the test disinfectant solution, perform testing
within 3 hours of preparation.

4.	Use appropriate aseptic techniques for all test procedures involving the
manipulation of test organisms and associated test components.

11. Special

Apparatus and
Materials

1.	Subculture media (e.g., letheen broth, fluid thioglycollate medium, and
Dey/Engley broth). Note: Commercial media made to conform to the
recipes provided in AO AC Method 961.02 may be substituted.

2.	Test organisms. Pseudomonas aeruginosa (ATCC No. 15442),
Staphylococcus aureus (ATCC No. 6538) and Salmonella enterica (ATCC
No. 10708) obtained directly from ATCC.

3.	Culture media. Note: Commercial media (e.g., synthetic broth) made to
conform to the recipes provided in AO AC Method 961.02 may be
substituted.

a.	Synthetic broth (10 mL tubes). Use for daily transfers and final test
cultures of S. aureus, P. aeruginosa and S. enterica.

b.	Nutrient broth (10 mL tubes). Alternatively, use for daily transfers
and final test cultures of P. aeruginosa.

4.	Trypticase soy agar (TSA). For use in propagation of the test organism to
generate frozen cultures and as a plating medium for carrier enumeration.
Alternately, TSA with 5% sheep blood (BAP) may be used.

5.	Sterile water. Use reagent-grade water free of substances that interfere
with analytical methods. Any method of preparation of reagent-grade
water is acceptable provided that the requisite quality can be met. See
Standard Methods for the Examination of Water and Wastewater and SOP
QC-01, Quality Assurance of Purified Water for details on reagent-grade
water.

6.	Carriers. Glass Slide Carriers, 25x25 mm (or comparable size)
borosilicate glass cover slips with number 4 thickness. Refer to SOP MB-
03, Screening of Stainless Steel Cylinders, Porcelain Cylinders and Glass

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Slide Carriers Used in Disinfectant Efficacy Testing.

7.	Specialized glassware. For cultures/subcultures, use autoclavable 38x 100
mm tubes (Bellco Glass Inc., Vineland, NJ). Cap tubes with closures
before sterilizing. For glassware used to prepare test chemical, refer to
SOP MB-22.

8.	Spray Disinfectant Apparatus. Refer to Attachment 4.

9.	Forceps. For manipulating glass slides.

10.	Flame Sterilized loop. For spreading inoculum on the surface of the
carriers. Make 4 mm inner diameter single loop at end of 50-75 mm (2-3
in.) Pt or Pt alloy wire No. 23 B&S gage or 4 mm loop fused on 75 mm (3
in.) shaft (available from Johnson Matthey, West Chester, PA 19380,
USA). Fit other end in suitable holder. Bend loop at 30° angle with stem.

11.	Micropipettes. For performing culture transfers and serial dilutions.

12.	Positive displacement pipette. Use with corresponding sterile tips to
deliver 0.01 mL.

13.	Timer. For managing timed activities, any certified timer that can display
time in seconds.

14.	3M™ Petrifilm™ Aerobic Count Plates. 3M Food Safety, St. Paul, MN,
USA, Cat. No. 6400.

15.	Vitek 2 Compact. For microbe identification.

12. Procedure and
Analysis

Prior to testing, perform the neutralization assay to determine if secondary
subculture tubes are necessary (refer to SOP MB-17, Neutralization
Confirmation).

The AO AC Germicidal Spray Products Test Processing Sheet (see section 14)
must be used for tracking testing activities.

12.1 Test Culture
Preparation

Refer to SOP MB-02 for the test microbe culture transfer notation. Refer to
Attachment 2 for culture initiation and generation of frozen stock cultures.

a.	Defrost a single cryovial at room temperature and briefly vortex to
mix. Add 10 |iL of the thawed frozen stock (single use) to a tube
containing 10 mL of culture medium (Synthetic broth is used for S.
aureus, P. aeruginosa and S. enterica. Nutrient broth may be used for
P. aeruginosa.). Vortex and incubate at 36±1°C for 24±2 h. One
daily transfer is required prior to the inoculation of a final test
culture. Daily cultures may be subcultured for up to 5 days; each
daily culture may be used to generate a test culture. For S. aureus and
S. enterica only, briefly vortex the 24 h cultures prior to transfer.

b.	To generate test cultures, inoculate a sufficient number of 20x 150
mm tubes containing 10 mL growth medium (e.g., synthetic broth or
nutrient broth) with 10 |iL per tube of the 24 h culture, then vortex to

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mix. Incubate 48-54 h at 36±1°C. Do not shake the 48-54 h test
culture. Record all culture transfers on the Organism Culture
Tracking Form (see section 14).

12.2 Carrier

Inoculation for

S. aureus, P.
aeruginosa,
and S. enterica

Inoculate approximately 80 carriers; 60 carriers are required for testing, 6 for
control carrier counts, and 1 for the viability control.

a.	For P. aeruginosa, remove the pellicle from 48-54 h test culture
either by decanting the liquid aseptically into a sterile tube, by gently
aspirating the broth away from the pellicle using a pipette, or by
vacuum removal. Avoid harvesting pellicle from the bottom of the
tube. Transfer test culture after pellicle removal into sterile 25x150
mm test tubes (up to approximately 20 mL per tube) and visually
inspect for pellicle fragments. Presence of pellicle in the final culture
makes it unusable for testing. Proceed as below in 12.2b.

b.	For S. aureus, P. aeruginosa and S. enterica (from 12.2a), using a
vortex-style mixer, mix 48-54 h test cultures for 3-4 s and let stand
10 min at room temperature before continuing. Remove the upper
portion of each culture (e.g., upper 3A), leaving behind any debris or
clumps, and transfer to a sterile flask; pool cultures in the flask and
swirl to mix. Measure and record the OD at 650 nm. Use sterile broth
medium to calibrate the spectrophotometer. Use the test culture for
carrier inoculation within 30 minutes.

Note: To achieve mean carrier counts within the appropriate range
(see section 8), the final test culture may be diluted (e.g., one-part
culture plus one-part sterile broth) prior to the addition of the organic
soil to the inoculum using the sterile culture medium used to generate
the final test culture (e.g., synthetic broth). Use the diluted test
culture for carrier inoculation within 30 min.

Note : Concentration of the final test culture may be used in the event
the bacterial titer in the final test cultures is too low (OD < 0.2).
Concentration may be achieved using centrifugation (e.g., 5000 g for
20 min) and resuspending the pellet in the appropriate volume of the
sterile final test culture medium necessary to meet the carrier count
range. Use the concentrated test culture for carrier inoculation within
30 min.

c.	Add appropriate amount of organic soil if required. Swirl to mix.

d.	Transfer an aliquot (e.g., -10 mL) of the final test culture into a
sterile tube for carrier inoculation. Vortex-mix the inoculum
periodically during the inoculation of carriers. Use a calibrated
positive displacement pipette to transfer 0.01 mL of the culture to the
sterile test carrier in the Petri dish. Immediately spread the inoculum
uniformly using a sterile loop. Do not allow the inoculum to contact
the edge of the glass slide carriers. Cover dish immediately.

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e. Dry carriers in incubator at 36±1°C for 30-40 min. Record the timed
carrier inoculation activities on the AO AC Germicidal Spray
Products Test Processing Sheet (see section 14). Perform efficacy
testing within two hours of drying.

12.3 Enumeration
of viable
bacteria from
carriers

(control carrier
counts)

a.	Assay dried carriers in 2 sets of three carriers, one set immediately
prior to conducting the efficacy test and one set immediately following
the test. Randomly select 6 inoculated carriers for carrier count
analysis prior to efficacy testing.

b.	Place each of the inoculated, dried carriers in a 38x 100 mm culture
tube or sterile 50 mL polypropylene conical tube containing 20 mL of
letheen broth. Vortex immediately - 60±5 s for P. aeruginosa or
120±5 s for S. aureus and S. enterica. Record the time of vortexing on
the AO AC Germicidal Spray Products Test Processing Sheet (see
section 14).

c. After vortexing, briefly mix and make serial ten-fold dilutions in 9 mL
dilution blanks of PBDW. Briefly vortex and plate 0.1 mL aliquots of
appropriate dilutions in duplicate on TSA or BAP using spread
plating. Plate appropriate dilutions to achieve colony counts in the
range of 30-300 colony forming units (CFU) per plate. Spread
inoculum evenly over the surface of the agar. Plates must be dry prior
to incubation. If the serial dilutions are not made and plated
immediately, keep the tubes at 2-5°C until this step can be done.
Complete the dilutions and plating within 2 h after vortexing.

Alternatively, pool the letheen broth from the tubes with the carriers
and briefly vortex. Serially dilute and plate 0.1 mL aliquots of the
pooled media (60 mL).

d.	Incubate plates (inverted) at 36±1°C for up to 48±2 h.

e.	Count colonies. Plates that have colony counts over 300 will be
reported as TNTC. Record counts on the AO AC Germicidal Spray
Products Test Carrier Counts Form and calculate the mean counts (see
sections 13 and 14).

f.	Alternatively, Petrifilm™ may be used for enumeration of bacterial
organisms. Follow manufacturer's instructions for preparation and
incubation of Petrifilm™ cards. Note: At a minimum, conduct a
culture purity check (isolation streak) using suspension from one
dilution tube of one carrier or the pooled set.

12.4 Disinfectant
Sample
Preparation

a. Prepare disinfectant sample per SOP MB-22, Preparation and
Sampling Procedures for Antimicrobial Test Substances.

12.5 Test Procedure

a. After the required carrier drying time, spray the slides sequentially for
a specified time, distance, and number of pumps at timed intervals

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(typically 30 seconds) with the carriers in a horizontal position. Use a
certified timer to time the spray interval.

b.	Spray the slide within ±5 seconds of the specified time for a contact
time of 1-10 minutes or within ±3 seconds for contact times <1
minute. After spraying, maintain the carriers in a horizontal position.
Treated carriers must be kept undisturbed during the contact time.

c.	After the last slide of a set (typically 20 slides) has been sprayed with
the disinfectant and the exposure time is complete, sequentially
transfer each slide into the primary subculture tube containing the
appropriate neutralizer within the ±5 second time limit. Drain the
excess disinfectant from each slide prior to transfer into the neutralizer
tube. Drain carriers without touching the Petri dish or filter paper.
Perform transfers with flame sterilized or autoclaved forceps.

d.	The slide can touch both the interior sides of the Petri dish and the
subculture tube during the transfer but avoid this contact as much as
possible.

e.	After the slide is deposited, recap the subculture tube and shake it
thoroughly.

f.	Incubate at 36±1°C for 48±2 h.

g.	If a secondary subculture tube is deemed necessary to achieve
neutralization, then transfer the carrier from the primary tube to a
secondary tube of sterile medium after a minimum of 30±5 min at
room temperature from the end of the initial transfer. Within 25-60
min of the initial transfer, transfer the carriers using a sterile forceps to
a second subculture tube. Move the carriers in order but the
movements do not have to be timed. Thoroughly shake the subculture
tubes after all of the carriers have been transferred. Incubate both the
primary and secondary subculture tubes 48±2 h at 36±1°C.

h.	Record timed events on the AO AC Germicidal Spray Products Test
Time Recording Sheet for Carrier Transfers (see section 14).

12.6 Sterility and
viability
controls

a.	Viability controls. Place 1 (or 2) dried inoculated untreated carrier(s)
into separate tubes of the neutralizing subculture broth (if primary and
secondary media are different). Incubate tubes with the efficacy test.
Report results as + (growth) or 0 (no growth) as determined by
presence or absence of turbidity. Growth should occur in both tubes.
Record results on AO AC Germicidal Spray Products Test Results
Sheet (see section 14).

b.	Sterility controls. Place one sterile, uninoculated carrier into a tube of
neutralizing subculture broth. Incubate tube with the efficacy test.
Report results as + (growth), or 0 (no growth) as determined by
presence or absence of turbidity. Growth should not occur in the tube.

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Record results on AO AC Germicidal Spray Products Test Results
Sheet (see section 14).

12.7 Results

a.	Gently shake each tube prior to recording results. Record results as +
(growth) or 0 (no growth) as determined by presence or absence of
turbidity, on the AO AC Germicidal Spray Products Test Results Sheet
(see section 14).

b.	If secondary subculture tubes are used, the primary and secondary
subculture tubes for each carrier represent a "carrier set." A positive
result in either the primary or secondary subculture tube is considered
a positive result for a carrier set.

c.	Viability control. Growth should occur in all tubes.

d.	Sterility control. Growth should not occur in any of the tubes.

e.	Specialized neutralizedsubculture medium such as Dey/Engley broth
will not show turbidity; rather the presence of pellicle at the surface of
the medium (for P. aeruginosa) or a color change to the medium
(yellow for growth of S. aureus or S. enterica) must be used to assess
the results as a positive or negative outcome.

i.	Use viability controls for comparative determination of a
positive tube.

ii.	If the product passes the performance standard, assay a
minimum of 20% of the remaining negative tubes for the
presence of the test microbe using isolations streaks on TSA
or BAP. Record preliminary results and conduct isolation
streaks at 48±2 h; however, continue to incubate negative
tubes for up to an additional 24 hours to confirm the results.1

12.8 Confirmatory
Steps for Test2
Microbes

a.	Confirm a minimum of three positive carrier sets per test. If there are
less than three positive carriers, then confirm each carrier. For a test
with greater than 20 positive carrier sets, confirm at least 20% of the
positive carrier sets.

b.	If secondary subculture tubes are used and both tubes are positive in
a carrier set, select only the secondary tube for confirmatory testing.

c.	For confirmatory testing, use Gram staining, solid media, and Vitek 2
Compact or appropriate biochemical and antigenic analyses to ensure
the identity of the organism. Follow manufacturer's instructions for
use of the Vitek 2 Compact.

i. Examine growth from the subculture medium for the test
organism by inoculating onto TSA or BAP, and selective
media. Incubate media plates 18-24 h at 36±1°C and record

1	Step not contained in the AO AC standard method 961.02.

2	Step not contained in the AO AC standard method 961.02.

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the results. Examine colonies on plates for morphology and
characteristics of the test organism (conforming to the
morphology in Bergey's Manual, see section 15.2 and 15.3).

d.	See Attachment 1 for Gram stain reactions, cell morphology, results
of biochemical and antigenic analyses, and colony characteristics on
solid media,

e.	If confirmatory testing determines that the identity of the unknown
was not the test organism, annotate the positive entry (+) on the
results sheet to indicate a contaminant was present.

12.9 Performance
Standard

a.	The performance standard for S. aureus, P. aeruginosa, and S.
enterica is 0-1 positive carriers out of sixty.

b.	If replicated testing is required for any microbe, conduct testing with
that microbe on independent test days.

13. Data Analysis/
Calculations

Calculations will be computed using a Microsoft Excel spreadsheet (see
section 14). Both electronic and hard copies of the spreadsheet will be
retained. Counts from 0 through 300 and their associated dilutions will be
included in the calculations.

14. Forms and Data
Sheets

1.	Attachment 1: Typical Growth Characteristics of strains of P. aeruginosa,
S. aureus, and S. enterica.

2.	Attachment 2: Culture Initiation Flow Chart for S. aureus, P. aeruginosa,
and S. enterica.

3.	Attachment 3: Photographs of spray apparatus.

4.	Test Sheets. Test sheets are stored separately from the SOP under the
following file names:

Physical Screening of Carriers Record MB-06-09 Fl.docx

Organism Culture Tracking Form (Frozen Stock MB-06-09 F2.docx
Cultures)

Test Microbe Confirmation Sheet (Quality MB-06-09 F3.docx
Control)

AO AC Germicidal Spray Products Test Carrier MB-06-09_F4.docx
Counts Form

AO AC Germicidal Spray Products Test Time MB-06-09_F5.docx
Recording Sheet for Carrier Transfers

AOAC Germicidal Spray Products Test MB-06-09_F6.docx
Information Sheet

AOAC Germicidal Spray Products Test Results MB-06-09 F7.docx
Sheet (172°)

AOAC Germicidal Spray Products Test Results MB-06-09_F8.docx

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Sheet (1°)

Test Microbe Confirmation Sheet MB-06-09 F9.docx

Carrier Count Spreadsheet MS Excel spreadsheet: MB-06-09_F10.xlsx
Carrier Count Template_GSPT_v4

AO AC Germicidal Spray Products Test Carrier MB-06-09 F11 .docx
Counts Form (Pooled Carriers)

AO AC Germicidal Spray Products Test MB-06-09_F12.docx
Processing Sheet

15. References

1.	Official Methods of Analysis. Revised 2013. AOAC
INTERNATIONAL, Gaithersburg, MD, (Method 961.02).

2.	Krieg, Noel R. and Holt, John G. 1984. Bergey's Manual of Systematic
Bacteriology Volume 1. Williams & Wilkins, Baltimore, MD.

P. aeruginosa p. 164, S. enterica p. 447.

3.	Sneath, P., Mair, N., Sharpe, M.E., and Holt, J. eds. 1986. Bergey's
Manual of Systematic Bacteriology Volume 2. Williams & Wilkins,
Baltimore, MD. S. aureus p. 1015.

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Attachment 1

Typical Growth Characteristics of strains of P. aeruginosa, S. aureus, and S. enterica (see ref.

5.2 and 15.3).



P. aeruginosa*

S. aureus*

S. enterica*

Gram slain reaction

(-)

(+)

(-)

Typical Growth Characteristics on Solid Media

Mannitol Salt

No Growth

circular, small, yellow
colonies, agar turning
fluorescent yellow

N/A

Cclrimide

circular, small, initially
opaque, turning fluorescent
green over time; agar
fluorescent yellowish green

No Growth

N/A

Xylose lysine
dcoxycholalc (XLD) agar

N/A

N/A

Round, clear red colonies
with black centers

Blood agar (BAP)

flat, opaque to off-white,
round spreading (1), metallic
sheen, slightly beta
hemolytic

small, circular, yellow or
white, glistening, beta
hemolytic

entire, glistening, circular,
smooth, translucent, low
convex, non-hemolytic

Biochemical and
Antigenic Analyses

Oxidase Test (+)

Catalase Test (+)
Staphaurex Test (+)

Wellcolex Color Salmonella
Test (+)

Typical Microscopic Characteristics

Cell dimensions

0.5-1.0 nm in diameter by
1.5-5.0 nm in length

0.5-1.5 |im in diameter

0.7-1.5 |im in diameter by
2.0-5.0 nm in length

Cell appearance

straight or slightly curved
rods, single polar flagella,
rods formed in chains

spherical, occurring singly,
in pairs and tetrads,
sometimes forming irregular
clusters

straight rods, peritrichous
flagella

*After 24±2 hours

(1) Test organism may display three colony types: a) circular, undulate edge, convex, rough and opaque; b) circular,
entire edge, convex, smooth and translucent; c) irregular, undulate edge, convex, rough, spreading, and translucent.
Pyocyanin is not produced.

Attachment 2

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Culture Initiation and Stock Culture Generation Flow Chart for S. aureus, P. aeruginosa, and S.
enterica

© Rehydrate ampule.

(pre-incubation) (post-incubation)

©Stock Culture Generation

Inoculate TSA plates with 100 |iL
culture from TUBE A; incubate.

Harvest inoculum from
plates.

Prepare frozen
stock cultures

© Culture ID & Quality Control

BAP

A

Selective
media

Gram Additional confirmation
Stain steps (Vitek or

biochemical/antigenic
analyses)

Preparation of Frozen Stock Cultures. Refer to SOP MB-02 for establishment of the organism
control number.

a.	Initiate new stock cultures from lyophilized cultures of Pseudomonas aeruginosa (ATCC
15442), Staphylococcus aureus (ATCC 6538), and Salmonella enterica (ATCC 10708)
from ATCC within 18 months.

b.	Open ampule of freeze dried organism as indicated by ATCC. Using a tube containing 5-
6 mL of TSB for P. aeruginosa and S. aureus and 5-6 mL of NB for S. enterica,
aseptically withdraw 0.5 to 1.0 mL and rehydrate the lyophilized culture. Aseptically
transfer the entire rehydrated pellet back into the original tube of broth designated as
"TUBE A". Mix well.

i. Incubate broth culture (TUBE A) at 36±1°C for 24±2 h. Record all manipulations
on the Organism Culture Tracking Form (see section 14).

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ii. For QC purposes, perform a streak isolation of the TUBE A culture on a BAP. In
addition, for S. aureus and P. aeruginosa, streak a loopful onto both selective
media (MSA and Cetrimide); for S. enterica, streak a loopful onto XLD. Incubate
all plates at 36±1°C for 24±2 h.

c. Following incubation, use a sterile spreader to inoculate a sufficient number of TSA
plates (e.g., 5 to 10 plates per organism) with 100 |iL each of the 24±2 h culture. Incubate
plates at 36±1°C for 24±2 h.

i. For QC purposes, perform a streak isolation of the 24±2 h broth culture on a BAP.
In addition, for S. aureus and P. aeruginosa, streak a loopful onto both selective
media (MSA and Cetrimide); for S. enterica, streak a loopful onto XLD. Incubate
all plates at 36±1°C for 24±2 h.

d. Following incubation, add 5 mL cryoprotectant solution (TSB with 15% v/v glycerol for
S. aureus and P. aeruginosa and NB with 15% v/v glycerol for S. enterica) to the surface
of each agar plate. Re-suspend the cells in this solution using a sterile spreader or a sterile
swab and aspirate the cell suspension from the surface of the agar. Transfer the
suspension into a sterile vessel. Repeat by adding another 5 mL of cryoprotectant to the
agar plates, re-suspend the cells, aspirate the suspension and pool with the initial cell
suspension.

i. For QC purposes, use the pooled suspension to perform a streak isolation on a
BAP. In addition, for S. aureus and P. aeruginosa, streak a loopful onto both
selective media (MSA and Cetrimide); for S. enterica, streak a loopful onto XLD.
Incubate all plates at 36±1°C for 24±2 h. Continue QC steps as per sections g
through i.

e. Mix the pooled contents of the vessel thoroughly. Immediately after mixing, dispense
approximately 0.5 to 1.0 mL aliquots into cryovials (e.g., 1.5 mL cyrovials).

f. Place and store the cryovials at -70°C or below; these are the frozen stock cultures. Stock
cultures may be used up to 18 months; reinitiate using a new lyophilized culture. These
cultures are single-use only.

g. Following the incubation period (see d.i), record the colony morphology as observed on
the BAPs and selective media plates (including the absence of growth). See Attachment 1
for details on cell and colony morphology, results of biochemical and antigenic analyses,
colony characteristics on selective media, and stain reactions.

h. For each organism, perform a Gram stain and Vitek from growth taken from the BAPs
according to the manufacturer's instructions. Observe the Gram reaction by using
brightfield microscopy at 1000X magnification (oil immersion).

i. Record all confirmation results on the Test Microbe Confirmation Sheet (Quality Control)
(see section 14).

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SOP No. MB-06-09
Date Revised 09-29-17
Page 15 of 15

Attachment 3

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