A ccording to the Paperwork Reduction Act of 1995, an agency may not conduct or sponsor, and a person is not required to respond to, a collection of information unless it displays a valid OMB control number. The valid OMB control number for this information collection is 0583-xxxx. The time required to complete this information collection is estimated to average 60 minutes per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information.
U.S. DEPARTMENT OF AGRICULTURE
FOOD SAFETY AND INSPECTION SERVICE
Pasteurized Egg Products Recognized Laboratory (PEPRLab) Program |
SALMONELLA LABORATORY SELF-ASSESSMENT CHECKLIST
LABORATORY NAME: ________________________________________________________
LABORATORY DIRECTOR: ____________________________________________________
LABORATORY REPRESENTATIVE(S) AT REVIEW: _______________________________
_____________________________________________________________________________
REVIEWER: _________________________________________________________________
DATE OF REVIEW: ___________________________________________________________
Who are your current clients?
Client:_______________________________________Establishment No.
Client:_______________________________________Establishment No.
Is this facility an in-plant laboratory?
On average, how many Salmonella tests are conducted per week?
How many of these tests are on USDA Official Surveillance Samples?
When was the last time a pasteurized egg product sample was found to be positive for Salmonella?
How many Salmonella positive pasteurized egg product samples have been found in the last 3 years?
How soon and to whom were these reported? _____________________________________
_________________________________________________________________________
8. List all personnel involved in the Salmonella testing. ______________________________
_________________________________________________________________________
_________________________________________________________________________
Opening Questions Page 1
Table of Contents Page 2
Section A: Personnel Requirements Page 3
Section B: Physical Facilities Page 3
Section C: Sample Receipt and Handling Page 4
Section D: Quality Assurance Page 6
Section E: Media and Reagents Page 10
Section F: Analytical Procedures Manual Page 13
Section G: Procedures and Methods Page 15
AMS Method Page 16
FSIS Method Page 17
FDA Method Page 18
Procedures and Methods (continued) Page 19
Section H: Safety Page 21
A. PERSONNEL REQUIREMENTS
1. Does the person in charge of microbiology have a baccalaureate
degree in biology, chemistry, microbiology, food technology,
medical technology, or other relevant science with at least 12
semester hours of course work in microbiology and/or at least 4
years of experience working in a public health, medical, food, or
other related laboratory? Yes No N/A
2. Are there training/education/experience records available
for each analyst? Yes No N/A
3. Is there a formal training program for employees working
in microbiology that includes instruction in safety, technical
procedures, and use of equipment? Yes No N/A
4. Is there a record kept of this formal training? Yes No N/A
B. PHYSICAL FACILITIES
A laboratory should have sufficient work and storage space and the facilities to handle the overall workload in order to ensure the quality of work, and safety of the employees.
1. Are floors, benches, and storerooms clean, free
of clutter, dust free, and well maintained? Yes No N/A
2. Are the following facilities adequate:
a. Sinks? Yes No N/A
b. Lighting? Yes No N/A
c. Gas outlets/Bacti-cinerator? Yes No N/A
d. Electrical outlets? Yes No N/A
e. Incubator capacity? Yes No N/A
f. Refrigerated storage space? Yes No N/A
g. Ventilation? Yes No N/A
3. Is there sufficient bench space for each analyst? Yes No N/A
4. Are bench tops made of impervious materials? Yes No N/A
5. Is the media preparation, glassware washing
area separate from the analytical area? Yes No N/A
6. Is unrelated traffic discouraged in the work area,
and is the laboratory locked when analysts are
not present? Yes No N/A
7. Are samples that are stored at room temperature,
stored in sealed containers to prevent pests from
infesting the laboratory? Yes No N/A
8. Is there a pest control system in place for the laboratory? Yes No N/A
C. SAMPLE RECEIPT AND HANDLING
Samples must be submitted to the laboratory in a condition that does not compromise the quality and validity of analytical results, and must be handled after receipt in the laboratory in a manner to maintain sample integrity.
l. Are samples inspected upon receipt in the laboratory for:
a. Leakage? Yes No N/A
b. Thawed frozen samples? Yes No N/A
c. Unsealed or ruptured containers? Yes No N/A
d. Spoilage? Yes No N/A
e. Evidence of tampering? Yes No N/A
2. Are all samples (including rejected samples) recorded
in a login system book, on worksheets, by computer,
or in another permanent, accessible format? Yes No N/A
3. Are unacceptable samples rejected for analysis and is the
condition recorded in login system book, computer, etc? Yes No N/A
4. If yes, are acceptable samples resubmitted? Yes No N/A
5. Does sample information include at a minimum:
a. Lot number ? Yes No N/A
b. Date of collection? Yes No N/A
c. Plant name and/or number? Yes No N/A
d. Type of analysis requested ? Yes No N/A
e. Type of product/state of product? Yes No N/A
f. Date of receipt? Yes No N/A
g. Condition upon receipt? Yes No N/A
6. Are liquid samples either analyzed on the same day received
or refrigerated at 2.0 to 8.0C until analyzed? Yes No N/A
7. Is the maximum turnaround time for sample analyses:
a. 4 to 5 days for negatives (cultural isolation method)? Yes No N/A
b. 5 to 7 days for positives (cultural isolation method)? Yes No N/A
c. 2 to 3 days for negatives using a rapid screening procedure? Yes No N/A
8. Are frozen samples either rapidly thawed in a water bath
(preferably with agitation) at less than 45C until
the slush ice stage (for no longer than 30 minutes) or
thawed at refrigerator temperatures (2.0 to 8.0C)
for no longer than 18 hours in the original container? Yes No N/A
9. Are thawed frozen samples analyzed immediately? Yes No N/A
10. Are dried egg samples analyzed upon receipt or
stored at room temperature for no more than 24 hours? Yes No N/A
11. If analysis of dried egg samples is delayed more than
24 hours, are they refrigerated at 2.0 to 8.0C? Yes No N/A
12. Are samples placed in appropriate storage after analysis
and are negatives retained for at least one day after reporting
and are positives retained for at least 30 days? Yes No N/A
D. QUALITY ASSURANCE
A written quality assurance program for the laboratory should be available, and the quality control records should be reviewed at least weekly by the supervisor. Proper care of laboratory instruments and equipment is essential for satisfactory performance of laboratory tests. Maintenance must be performed on a regular basis by trained individuals. Monitoring must be performed at stated intervals by laboratory personnel to assure on‑going reliability.
1. Is there a written Quality Assurance Program? Yes No N/A
2. Is there documentation showing that records of procedure
controls, instrument functions, scheduled maintenance,
and equipment temperatures are reviewed at least weekly? Yes No N/A
3. Is there documentation showing that corrective action(s)
were taken when controls were found to be unacceptable
and/or when instruments were found to be non functioning
or to have failed? Yes No N/A
4. Are quality control and maintenance records
maintained for at least 3 years? Yes No N/A
5. Is there a system for routinely reviewing the work
to detect clerical or analytical errors, or unusual results? Yes No N/A
6. Does the system provide for timely correction of
errors? Yes No N/A
7. Are laboratory results and analysts' worksheets retained
for each sample including negative samples for a period
of at least three years? Yes No N/A
8. Are there records of internal reviews and, when
indicated, corrective action(s) taken in response to
unacceptable check‑sample results? Yes No N/A
9. Are thermometers checked for accuracy against a
thermometric standard (National Institute of Standard
and Technology/formerly National Bureau of Standards)
before placing them in service? Yes No N/A a. Are thermometers calibrated annually? Yes No N/A
b. Are correction factors listed on each thermometer? Yes No N/A
c. Is the NIST traceable thermometer sent in for calibration
at least every 5 years? Yes No N/A
10. Are mechanical pipetting devices calibrated at least
semi‑annually to check accuracy of delivery? Yes No N/A
11. Is there a scheduled, written preventative maintenance
program for laboratory equipment and instruments? Yes No N/A
12. Does the preventative maintenance program include the following:
I. AUTOCLAVES:
a. Are acceptable temperature ranges defined for autoclaves? Yes No N/A
b. Are there recording thermometers, calibrated dials,
or other recording devices present on autoclaves? Yes No N/A
c. Are temperatures checked and recorded at each use
and is there documentation of corrective action for
out‑of‑range results? Yes No N/A
d. Are autoclaves monitored with biological indicators at least
monthly and are they monitored each time used with a physical
indicator (indicator tape)? Yes No N/A
II. WATERBATHS:
a. Are thermometers suspended in distilled water? Yes No N/A
b. Are acceptable temperature ranges defined and available
for waterbaths? Yes No N/A
c. Are temperatures checked and recorded at least daily,
and is there documentation of corrective action for
out-of-range results? Yes No N/A
d. Are water baths clean and free of debris, and is the
water changed regularly? Yes No N/A
III. INCUBATORS:
a. Are thermometers suspended in an appropriate liquid
such as sterile glycerin, distilled water or other acceptable medium? Yes No N/A
b. Are acceptable temperature ranges defined and available
for each incubator? Yes No N/A
c. Are temperatures checked and recorded at least daily, and
is there documentation of corrective action for out-of-range
temperatures? Yes No N/A
IV. REFRIGERATORS/FREEZERS:
a. Are thermometers suspended in an appropriate
liquid such as sterile glycerin, distilled water or other acceptable medium? Yes No N/A
b. Are acceptable temperature ranges defined and
available for refrigerators/freezers?
Yes No N/A
c. Are temperatures checked and recorded at least daily,
and is there documentation of corrective action for
out-of-range temperatures? Yes No N/A
a. Are manufacturer’s operation requirements
followed for the spectrophotometer and photometric reader? Yes No N/A
b. Is the instrument calibrated according to
manufacturer’s requirements or kit manufacturer’s requirements? Yes No N/A
a. Is the balance checked with a certified set of
weights at least weekly? Yes No N/A
NOTE: A 2000 gram balance must have a
sensitivity of 0.1 grams with a 200 gram load?
b. Is the balance checked annually by an authorized
service representative using certified weights that
are traceable to the National Institute of Standards
and Technology? Yes No N/A
VII. pH METER:
a. Are pH meters standardized with at least two appropriate
standard buffer solutions covering the range of intended use prior
to use and are the results recorded? Yes No N/A
b. If pH readings are going to be taken intermittently throughout
the day, is the pH meter re-calibrated with fresh portion of buffers
before each use? Yes No N/A
c. Are pH meter electrodes checked each time they are
used to see if they are filled and not cracked? Yes No N/A
E. MEDIA AND REAGENTS
All media, reagents, and chemicals must be prepared correctly, stored under appropriate conditions, and tested with reference organisms to assure satisfactory performance.
1. Are all purchased media, chemicals and solutions labeled
with the date received and an expiration date? Yes No N/A
2. Are all in‑house prepared media, reagents, and solutions
labeled with the name of product and expiration date? Yes No N/A
3. Do media records contain complete QC information Yes No N/A
for each batch, including pH, sterility, and productivity?
If pH paper strip is used for pH determination, the pH paper has to
cover the pH range of use with pH gradation value ≤ 0.2 pH unit.
4. Are media, reagents, and/or solutions stored under appropriate
conditions (i.e. refrigerated, away from daylight, in a cool
or dry place and in appropriate laboratory containers)? Yes No N/A
Note: The shelf life of prepared media will vary. In general, the
maximum shelf life of prepared culture media in sealed tubes or
bottles is 3 months in the refrigerator (2 - 8C), or up to 1 month
at room temperature (18 - 23C). Media in vented tubes may be stored
for up to 4 weeks if refrigerated or 2 weeks at room temperature. Plating
media may be stored in the refrigerator for a maximum of 10 weeks in
air-tight bags or for a maximum of 2 weeks if the bags are unsealed.
5. Are outdated materials discarded? Yes No N/A
6. Is a sample of each batch of in‑house prepared media
checked for the ability to support growth (and for
biochemical reactivity/selectivity, as appropriate to the
media) by using reference organisms capable of evaluating
pertinent characteristics of the media? Yes No N/A
List the Salmonella media QA cultures used:________________________
____________________________________________________________
____________________________________________________________
7. Are reference organisms maintained under refrigeration on agar
with at least monthly transfers, or by other appropriate methods? Yes No N/A
8. Is an uninoculated control of each medium used and run
concurrently with the sample? Yes No N/A
9. Are all media in satisfactory condition upon visual examination
(i.e. uncontaminated, hydrated, smooth, appropriate color and
thickness) and results documented for each batch? Yes No N/A
10. Are serological reagents tested with appropriate positive
and negative controls? Yes No N/A
(Note: This may include culture controls, commercially
produced antigen, or kit controls.)
11. Are serological reagents refrigerated when not in use,
inspected for clarity and color, and discarded when
showing any turbidity, flocculation or color change? Yes No N/A
12. Is Rappaport Vassiliadis broth (e.g. RV10, RVS, or RV Broth)
prepared according to manufacturers instructions and autoclaved
for 15 minutes at 115 or 116 C (12 lbs)? Yes No N/A (NOTE: It is important not to overheat this medium.)
13. Is tetrathionate broth prepared according to manufacturers
instructions and heated to a boil? Yes No N/A
(NOTE: It is important not to overheat this medium.)
14. Is only the basal medium of tetrathionate broth base stored? Yes No N/A
15. Is the iodine - potassium iodide solution added to the
tetrathionate broth base on the day of use? Yes No N/A
16. Is selenite cystine broth prepared only by boiling, and is it
used on the day of preparation? Yes No N/A
17. Are Bismuth Sulfite Agar (BS) plates prepared, stored,
and incubated only as follows:
a. Are BS plates prepared (20 to 25 ml/plate) from
dehydrated media that is smooth, free-flowing, and
has been properly stored? Yes No N/A
b. Are BS plates used on the day of preparation or no more
than 1 day after preparation? Yes No N/A
18. Are double modified lysine iron agar (DMLIA) plates used
within three weeks of preparation (for FSIS method)? Yes No N/A
19. In the preparation of XLT4 agar (FSIS METHOD), is one
of the following used:
a. XL Agar Base with Thiosulfate citrate
and a 27 % solution (approximate) of the surfactant
7-ethyl-2-methyl-4-undecanol hydrogen sulfate, sodium salt,
formerly produced by Union Carbide under the tradename of
Tergitol 4? Yes No N/A
b. XLT4 Agar Base with the XLT4 Agar Supplement (a 27 %
solution (approximate) of the surfactant 7-ethyl-2-methyl-4-
undecanol hydrogen sulfate, sodium salt, formerly produced
by Union Carbide under the tradename of Tergitol 4). Yes No N/A
20. Does the laboratory have a distillation, ion exchange,
filtration, or other system available for producing or
purchasing water, free from toxic or nutritive substances,
to be used in media or reagent preparation? Yes No N/A
21. Is the distilled water stored properly? Yes No N/A
22. Is the water system monitored at least monthly and/or is
there a certificate of analysis for purchased distilled water
to ensure that each meet the following criteria:
a. conductivity (< 1.0 Siemens)
or resistivity (> 1 Megohm)? Yes No N/A
b. bacteria (<1000 cfu /ml)? Yes No N/A
23. Are other media used for Salmonella testing of pasteurized
egg products? Yes No N/A
If so, list the media used:___________________________________
_______________________________________________________
_______________________________________________________
24. If so, are these media prepared and stored according to the
manufacturer’s instructions? Yes No N/A
F. ANALYTICAL PROCEDURES MANUAL
To assure consistent laboratory results, a procedures manual should be available at each work station and should contain all procedures performed in the laboratory. Procedures should be written in sufficient detail to enable the analyst(s) to perform tests without referring to other publications.
(NOTE: Manufacturers’ package inserts with specific product use instructions may be used in addition to the manual, but cannot replace the procedures manual.)
A recognized laboratory may use a rapid screening method in their testing program for FSIS official egg product surveillance samples only if that method is either an approved AOAC Official Method of Analysis of the AOAC INTERNATIONAL, validated for egg products, or the FSIS Rapid Screening Method as described in the MLG. All presumptive positives identified by rapid screening methods must be confirmed using one of the three accepted cultural methods listed below. Any recognized laboratory that does not use a rapid screening method in their testing program must use one of the following three cultural methods as their primary protocol for egg product analysis:
1. AMS Laboratory Methods for Egg Products – Section I (‘93 rev.) and Section VII (‘94 rev.) Reference AOAC 967.26, 967.27, 978.24, 989.12, 991.13.
2. FSIS MLG online, Chapter 4.
3. FDA BAM online, Chapter 5.
1. Is an Analytical Procedures Manual available in
the laboratory? Yes No N/A
2. For Salmonella testing, does the manual contain:
a. All of the procedures performed? Yes No N/A
b. Only approved or accepted procedures? Yes No N/A
c. Criteria for accepting or rejecting samples? Yes No N/A
d. A section on media and reagent preparation? Yes No N/A
e. Quality control procedures? Yes No N/A
3. Does each procedure contain:
a. Step-by-step instructions? Yes No N/A
b. Sample handling/preservation? Yes No N/A
c. Expected reactions/results? Yes No N/A
d. Corrective actions to be taken when expected
reactions/results are not observed? Yes No N/A
e. References? Yes No N/A
4. Is the manual reviewed and updated annually? Yes No N/A
5. Are changes in procedures approved and initialed by the
supervisor? Yes No N/A
6. Is there documentation to show that all analysts have
read the procedures manual, including any revisions,
and that only the most recent revision is being used? Yes No N/A
G. PROCEDURES AND METHODS
Routine procedures for Salmonella detection permit recovery of small numbers of pathogens or debilitated organisms by pre-enrichment in lactose broth or buffered peptone water (BPW). Selective enrichment and plating procedures following that permit growth of Salmonella while limiting the growth of competing non-Salmonella organisms naturally present in food samples. Identification of an isolate as a member of the genus Salmonella depends on a combination of biochemical and serological parameters.
1. Is at least 100 g of sample tested for official surveillance samples? Yes No N/A
2. Is a positive control culture run along with all Salmonella tests
through any rapid screening test and confirmation tests? Yes No N/A
List the Salmonella
control culture(s) used:
3. Is every tube and plate throughout the test procedure
appropriately labeled? Yes No N/A
4. For each sample, are records maintained documenting each
step of analysis for traceability? (i.e. analyst ID, media/kit/reagent lot
number, incubation time and temperatures, equipment ID number, etc.) Yes No N/A
5. List the cultural method used for analysis and/or confirmation
of official surveillance samples.
6. Is the laboratory using a rapid screening method that is either the FSIS MLG Method or an approved AOAC Official Method,
validated for egg products? Yes No N/A
If yes, list the method below with its AOAC reference number:
Rapid Screening Method:
AOAC Official Method Reference Number:
7. Prior to implementing a new rapid method, were parallel
tests conducted using both the rapid and conventional
cultural methods and were the results documented? Yes No N/A
8. In the parallel testing, did the methods show equivalency,
agreeing at least 95 percent of the time? Yes No N/A
9. Are all positive results that are obtained by rapid screening
methods followed up by subculturing the sample and
subsequently performing biochemical and serological
identification of any Salmonella isolates? Yes No N/A
10. Is the ratio of egg sample to preenrichment broth maintained at 1:10? Yes No N/A
Proceed to question #11 if your lab is using the AMS culture method. Go to question #12 if your lab is using the FSIS, MLG chapter 4 culture method.
Go to question #13 if your lab is using the FDA, BAM chapter 5 culture method.
11. AMS Method – Laboratory Methods for Egg Products
(Section I - 1993 rev.) and Section VII - 1994 rev.):
a. Is the pH of the lactose broth/egg mixtures adjusted to
6.8 0.2 after being left for 1 hour at room temperature? Yes No N/A
List the method of pH testing used: ______________________
b. After 24 2 hours incubation at 35C is the lactose broth
subcultured by transferring 1 ml into 10 ml of selenite cystine
broth and an additional 1 ml into 10 ml of tetrathionate broth? Yes No N/A
c. After 24 2 hours incubation at 35C are the selenite cystine
and tetrathionate broths subcultured to selective differential
agars, XLD, HE, and BS (or manufacturer’s recommendation
for rapid tests)? Yes No N/A
After 24 2 hours incubation at 35C are up to three typical
colonies (if available), characteristic of Salmonella species,
selected from each differential agar plate as follows:
XLD – pink/red colonies with/without black centers
or all black colonies (atypical strains may appear
yellow with or without black centers)? Yes No N/A
HE – blue/blue-green colonies with or without
black centers or all-black colonies? Yes No N/A
BS – brown, black, or grey colonies, usually with
a metallic sheen and darkening of the surrounding
media or occasionally green colonies? Yes No N/A
e. Are all BS agar plates examined for typical or suspicious
Salmonella colonies after 24 2 hours incubation
at 35C and, if negative, again at 48 2 hours incubation? Yes No N/A
f. Go to question #14. (page 19)
12. FSIS Method – Microbiology Laboratory Guidebook online (MLG), Chapter 4:
After 20 – 24 hours of incubation at 35 2C, is the buffered
peptone water-sample mixture subcultured by transferring
0.1 ml. into 10 ml of Rappaport Vassiliadis (RV) Broth and
by transferring 0.5 ml into 10 ml of tetrathionate (TT) broth,
and are these broths then incubated at 42 0.5C? Yes No N/A
After 22 – 24 hours incubation at 42 0.5C are TT and RV
broths subcultured to selective differential agars, BGS and
either DMLIA or XLT4? Yes No N/A
After 18 – 24 hours incubation at 35 2C are up to three
typical colonies, (if available), characteristic of Salmonella
species, selected from each differential agar plate as follows:
BGS – colonies that are pink and opaque with
a smooth appearance and entire edge surrounded by a
red color in the medium? (On very crowded plates,
look for colonies that give a tan appearance against
a green background.) Yes No N/A
DMLIA – purple colonies with or without black
centers? (Since salmonellae typically decarboxylate lysine
and ferment neither lactose nor sucrose, the color of the
medium reverts to purple.) Yes No N/A
XLT4 – black colonies or red colonies with
black centers? (The rim of the colony may still be
yellow in 24 h; later it should turn red.) Yes No N/A
Are all selective agar plates reincubated for an additional
24 2 hours and are all initially negative plates, as well
as those yielding non-confirmed Salmonella colonies from
the initial selection reexamined before discarding? Yes No N/A
e. Go to question #14. (page 17)
13. FDA Method – Bacteriological Analytical Manual online (BAM), Chapter 5:
Is lactose broth used for pre-enrichment of dry egg products? Yes No N/A
Is TSB with ferrous sulfate (35 mg ferrous sulfate per 1000 ml TSB)
used for pre-enrichment of liquid egg products? Yes No N/A
c. Is the pH of the pre-enrichment broth/egg mixtures adjusted to
6.8 0.2 after being left for 1 hour at room temperature? Yes No N/A
List the method of pH testing used: ____________________
d. After 24 2 hours incubation at 35C is the lactose broth
subcultured by transferring 0.1 ml into 10 ml of RV broth
and an additional 1 ml into 10 ml of tetrathionate (TT) broth? Yes No N/A
e. Is the RV broth incubated 24 h 2 h at 42 0.2C? Yes No N/A
f. Is the TT broth incubated 24 h 2 h at 35 2.0C? Yes No N/A
g. After 24 2 hours incubation are the RV and TT broths
subcultured to selective differential agars, XLD, HE, and
BS by streaking 10 l from each broth onto each of the
three selective differential agars? Yes No N/A
h. After 24 2 hours incubation at 35C are at least 2 typical colonies
(if available), characteristic of Salmonella species, picked to TSI
and LIA slants from each differential agar plate as follows:
XLD – pink/red colonies with/without black centers or all black colonies
(atypical strains may appear yellow with or without black centers)? Yes No N/A
HE – blue/blue-green colonies with or without
black centers or all-black colonies? Yes No N/A
BS – brown, black, or grey colonies, usually with a metallic sheen and
darkening of the surrounding media or occasionally green colonies? Yes No N/A
i. Are BS plates re-incubated an additional 24 2 h
and, if the original colonies from the BS plates give
atypical reactions on TSI and LIA, are at least 2
additional typical colonies picked, if available? Yes No N/A
j. Are selective agar plates stored at 5 – 8C until completion
of confirmation steps? Yes No N/A
14. If suspicious colonies are not well isolated, are they
re-streaked for purification directly onto selective agar
plates before inoculating Triple Sugar Iron (TSI) and
Lysine Iron Agar (LIA) slants? Yes No N/A
15. Are characteristic colonies inoculated to TSI slants and
LIA slants by inoculating the slants in tandem with a
single pick from a colony, and by stabbing the butts and
streaking the slants in one operation? Yes No N/A
16. After incubation at 35 2C for 24 + 2 hours with caps
loosened, are TSI and LIA slants with the following
characteristics of Salmonella selected for further analysis:
a. LIA – Alkaline slant and butt (purple throughout)
with or without hydrogen sulfide (H2S) production? Yes No N/A
(Note: Some strains will produce an acid butt,
along with a typical TSI slant.)
b. TSI – Alkaline (red) slant and acid (yellow) butt
with or without hydrogen sulfide (H2S) production? Yes No N/A
(Note: Some strains will produce an acid slant and butt.)
17. Are TSI/LIA cultures, which appear to be mixed, streaked for
isolation before additional biochemical or serological tests
are performed? Yes No N/A
18. Before reporting a presumptive positive sample as negative, at least six
TSI/LIA cultures (if available) picked as below are subjected to further
biochemical and serological testing:
a. For FSIS MLG 4 method: are at least three well isolated colonies
from each of two plating media picked to TSI/LIA pairs and subject
to confirmation testing before a sample is reported as negative? Yes No N/A
b. For AMS or FDA method, are at least two well isolated colonies from
each of three plating media picked to TSI/LIA pairs and subject to
confirmation testing before a sample is reported as negative? Yes No N/A
19. Is a rapid/miniaturized biochemical test system used for
identifying Salmonella? Yes No N/A
If yes, list the test system below with its AOAC reference number:
Biochemical Test System:
AOAC Reference Number:
20. Are the manufacturers' guidelines for miniaturized
biochemical systems followed for inoculum preparation,
incubation, and interpretation of results? Yes No N/A
21. Are sufficient biochemical tests performed to presumptively
identify atypical isolates as Salmonella? (i.e. urease, dulcitol,
lactose, and sucrose fermentation, and malonate utilization) Yes No N/A
22. When performing slide agglutination tests, are all materials
and equipment brought to room temperature before testing? Yes No N/A
23. Is a saline control included to detect autoagglutination when
performing the polyvalent or group somatic (O) antigen slide
agglutination test? Yes No. N/A
24. Are polyvalent flagellar (H) antigen screening tests performed
by a tube method using formalinized cultures prepared from:
a. Brain-heart infusion broth incubated at 35C
for 4 to 6 hours for same-day testing? Yes No N/A
b. Trypticase soy broth incubated 24 hours at
35C for next-day testing? Yes No N/A
25. For H antigen testing is a negative control of formalinized
saline with the formalinized culture included in the testing? Yes No N/A
26. Are H antigen tests incubated at 48 – 50C for 1 hour? Yes No N/A
27. Are diluted Salmonella H antisera prepared in quantities
sufficient only for daily use, and any remaining diluted
antisera discarded at the end of the day? Yes No N/A
28 If the Oxoid kit or SSI H antiserum is used, are manufacturer’s
instructions followed? Yes No N/A
Safety issues are not within the scope of the PEPRLab Program audit. Therefore, the laboratory is not required to report a corrective action for any observations and/or recommendations resulting from this part of the review. This segment is conducted out of concern for the health and safety of laboratory personnel.
H. SAFETY:
Facilities need to be designed and equipped to meet established OSHA safety standards. Protective equipment should be available to personnel and a comprehensive safety program should be included in laboratory procedures.
1. Is there an ongoing, documented safety education program
that includes, but is not limited to, instruction on:
a. Location and use of fire extinguishers,
blankets, and other safety equipment? Yes No N/A
b. Fire drills and evacuation routes? Yes No N/A
c. Handling emergency situations? Yes No N/A
d. Basic first aid procedures? Yes No N/A
e. CPR training? Yes No N/A
f. The labeling of all cancer suspect agents? Yes No N/A
g. Lifting heavy items? Yes No N/A
h. "Right to Know" laws? Yes No N/A
2. Is there a safety manual available in the laboratory? Yes No N/A
3. Does it include procedures for:
a. Handling spills of contaminated materials? Yes No N/A
b. Disposal of biological waste? Yes No N/A
c. Disposal of chemical waste? Yes No N/A
d. Handling toxic materials? Yes No N/A
4. Are Materials Safety Data Sheets (MSDS) available
in the laboratory for all chemicals used in the laboratory? Yes No N/A
5. Is there a designated safety officer in the laboratory? Yes No N/A
6. Does the safety officer conduct periodic safety
inspections using a checklist? Yes No N/A
7. Are safety deficiencies and corrective actions documented? Yes No N/A
8. Are accidents documented and reported to the safety officer? Yes No N/A
Is emergency medical help readily available if needed by
laboratory personnel? Yes No N/A
10. Are emergency phone numbers (i.e. fire, ambulance, police)
posted in a conspicuous place on or near the phone? Yes No N/A
11. Are personnel ever alone in the laboratory? Yes No N/A
12. Does the laboratory have at least two exits and are all
exits and hallways free of obstructions? Yes No N/A
13. Can the doors be locked from both sides? Yes No N/A
14. Are the following in the laboratory:
a. Fire extinguishers (CO2, dry chemical)? Yes No N/A
b. Fire blanket? Yes No N/A
c. Eyewash station? Yes No N/A
d. Overhead shower? Yes No N/A
e. Fire alarm system? Yes No N/A
f. Sprinkler system? Yes No N/A
g. First aid kit? Yes No N/A
15. Are fire extinguishers and other safety equipment
regularly inspected, certified to be in working order,
and their condition documented? Yes No N/A
16. Is an EPA‑approved disinfectant available to clean up
biohazardous spills and disinfect bench tops daily? Yes No N/A
17. Is the disinfectant prepared and used according to the
manufacturers instructions? Yes No N/A
18. Are biohazardous materials discarded in leak-proof,
tear‑resistant plastic bags marked with a biohazard symbol? Yes No N/A
19. Are biohazardous waste materials steam sterilized at 121C
for at least 45 minutes, with biohazard bags vented to effect
complete sterilization as required by the manufacturer, or else
incinerated prior to disposal in landfills? Yes No N/A
20. Are biohazardous materials removed from the laboratory daily
and contained in a manner to minimize accidental spills during
storage and transport and to exclude rodents and vermin? Yes No N/A
(i.e. Bags are tied and placed in covered, rigid containers such as
buckets, cans, or cardboard boxes, and liquids are placed in capped
or tightly stoppered bottles or tubes.)
21. Are janitors and other maintenance personnel instructed in
proper methods of disposal, and are disposal areas located
well away from the building and protected from trespassers? Yes No N/A
22. Are personnel instructed not to taste chemicals at all,
and not to directly smell chemicals? Yes No N/A
23. Is mouth pipetting strictly prohibited (with no exceptions
for sterile solutions)? Yes No N/A
24. Are eating, drinking, and smoking prohibited in the laboratory,
and is labware prohibited from use for any of these purposes? Yes No N/A
25. Is food prohibited from refrigerators that are used for reagents,
samples, etc.? Yes No N/A
26. Are personnel instructed to wash hands after handling samples,
working with cultures, handling chemicals, and/or before leaving
the laboratory? Yes No N/A
27. Are laboratory personnel required to confine long hair? Yes No N/A
28. Are aprons, gloves, and goggles available for handling
hazardous materials? Yes No N/A
29. Are heat‑resistant gloves available near the autoclave
and in the media preparation area? Yes No N/A
30. Are laboratory coats or other protective clothing worn
only in the laboratory? Yes No N/A
31. Are bunsen burners turned off when not in use? Yes No N/A
32. Are chipped, broken, or etched glassware discarded
in a specially marked, puncture proof, sealed container? Yes No N/A
33. Is broken glassware always cleaned up with a dust pan/brush
and never picked up with the hands? Yes No N/A
34. Are heavy plastic carriers available for transporting
acids or other corrosive chemicals? Yes No N/A
35. Are bottles of acid (HC1) always tightly capped and
rinsed on the outside after being used and/or before
being opened? Yes No N/A
36. Have laboratory personnel been taught to always
pour acid into water, never water into acid? Yes No N/A
37. Is a safety cabinet or room available for storing large
containers of hazardous chemicals? Yes No N/A
38. Are electrical connections covered with a heavy
rubber coating? Yes No N/A
39. Are extension cords grounded and, if running across
the floor, are they taped down? Yes No N/A
40. Are all electrical cords, receptacles, and switches in good
condition and located away from water sources? Yes No N/A
41. Does the laboratory use mercury thermometer(s)? If so, is a
mercury spill kit available? Yes No N/A
42. If located near water sources, are electrical outlets protected
with ground-fault circuit interrupters? Yes No N/A
I. SUMMATION AND COMMENTS:
REFERENCES
1. EPA Guide for Infectious Waste Management, May 1987. United States Environmental Protection Agency, National Technical Information Service, Springfield, VA.
2. Handbook of Microbiological Media, 3rd Edition, 2004, CRC Press, Boca Raton, Fl.
3. Biosafety in Microbiological and Biomedical Laboratories, 4th ed. May 1999. Centers for Disease Control, U.S. Department of Health and Human Services, Atlanta, GA.
4. Compendium of Methods for the Microbiological Examination of Foods, 4th ed. 2001. APHA, Technical Committee on Microbiological Methods for Foods, Washington, DC.
5. Good Laboratory Practice Regulations, Code of Federal Regulations (CFR), 21 CFR Part 58, U.S. Food and Drug Administration, 5600 Fishers Lane, Rockville, MD.
6. Difco &BBL Manual, 1st ed., 2003, Becton, Dickson and Company, Sparks, Maryland.
7. Official Methods of Analysis of AOAC INTERNATIONAL, Current AOAC Internet Version
8. Laboratory Methods for Egg Products – Section I (1993 revision) and Section VII (1994 revision), U. S. Department of Agriculture, Agriculture Marketing Service, Washington, D. C.
9. Microbiology Laboratory Guidebook online (MLG), Chapter 4, U. S. Department. of Agriculture, Food Safety and Inspection Service, Washington, D.C.
10. Bacteriological Analytical Manual online (BAM), Chapter 5, U.S. Food and Drug Administration, Washington, D.C.
Instructions for completing the form
1. Answer all questions on the checklist by placing a circle around the appropriate response or by filling in the blank. Responses are based on observations or information supplied by laboratory personnel. Questions pertaining to services, equipment, instruments, methods or procedures not used routinely by the laboratory should be marked as not applicable (N/A).
2. Submit the completed form to:
Zhihong Wang, M.D. MBA
Program Manager, Pasteurized Egg Products Recognized Laboratory Program
USDA, FSIS, OPHS, LQAD
950 College Station Road
Athens, Georgia 30605
Phone: (706) 546-3559 Fax: (706) 546-3453
E-mail: [email protected]
Form No. PEPRL F-0008.04
Effective: xx/xx/xx Issuing Authority: Laboratory Quality
Assurance Division (LQAD) FSIS FORM xxxxxx (mm/dd/yy)
Page
|
File Type | application/msword |
File Title | Pasteurized Egg Products Recognized Laboratory (PEPRLab) Program |
Author | SBenson, LQA Division |
Last Modified By | joconnell |
File Modified | 2012-08-14 |
File Created | 2012-08-14 |