Validation of a Minor Modification to the Soleris® Direct Yeast and Mold Vial and Selective Supplement.

Here we describe results of a study to validate minor reagent formulation changes to the Soleris Direct Yeast and Mold (DYM) automated growth-based method for semi-quantitative detection of yeast and mold in food products. In order to reduce the maximum concentration of the selective agent chloramphenicol in the Soleris reagents, chloramphenicol was removed from the selective supplement and added to the vial growth medium itself. Therefore, both the vial medium and supplement have been reformulated in an alternative version of the method. A probability of detection (POD) statistical model was used to compare Soleris results at multiple test thresholds (dilutions) with plate counts determined using the U.S. Food and Drug Administration Bacteriological Analytical Manual dilution plating procedure. Three matrixes were tested; yogurt, tomato juice, and cocoa powder. POD analysis showed that the percentage of positive Soleris tests at various test thresholds were within the limits predicted by the reference method plate counts for all matrixes evaluated. Real-time stability data on three manufactured lots showed that the modified Soleris vial and supplement are stable for at a minimum of 10 months when stored at 2-8°C. In sum, results presented here demonstrate that the modifications to the Soleris DYM vial and supplement do not impact method performance. The modified Soleris DYM method can be used as an accurate alternative to conventional dilution plating procedures for semi-quantitative determination of yeast and mold at threshold levels, while saving as much as 3 days in analysis time.

Validation of Modifications to the ANSR® Salmonella Method for Improved Ease of Use.

This paper describes the results of a study to validate minor reagent formulation and procedural changes to the ANSR® Salmonella method, AOAC Performance Tested Method™ 061203. In order to improve ease of use and diminish risk of amplicon contamination, the lyophilized reagent components were reformulated for increased solubility, thus eliminating the need to mix by pipetting. In the alternative procedure, an aliquot of the lysate is added to lyophilized ANSR reagents, immediately capped, and briefly mixed by vortex. Results of the validation study with ice cream, peanut butter, dry dog food, raw ground turkey, raw ground beef, and sponge samples from a stainless steel surface showed no statistically significant differences in performance between the ANSR method and the U.S. Food and Drug Administration Bacteriological Analytical Manual or U.S. Department of Agriculture-Food Safety and Inspection Services Microbiology Laboratory Guidebook reference culture procedures. Results of inclusivity and exclusivity testing were unchanged from those of the original validation study; exclusivity was 100% and inclusivity was 99.1% with only a single strain of Salmonella Weslaco testing negative. Robustness testing was also conducted, with variations to lysis buffer volume, lysis time, and sample volume having no demonstrable effect on assay results.

Validation of the NeoFilm for Yeast and Mold Method for Enumeration of Yeasts and Molds in Select Foods.

NeoFilm Yeast and Mold (Y&M), also known as Sanita-kun Yeasts and Molds, is a simple, effective device used for the enumeration of yeasts and molds. It consists of a nonwoven fabric on which a layer of microbial nutrients is deposited in a film. A 1 mL sample homogenate is applied to the membrane and this, in turn, is incubated for 48-72 h at 25°C. Sample homogenates were prepared using two different diluents for customer convenience: phosphate buffered saline (PBS) and 0.1% peptone water. In comparative testing of breaded chicken nuggets, dry pet food, orange juice concentrate, yogurt, and cake mix, there were statistically significant differences in the counts obtained by the NeoFilm Y&M and U.S. Food and Drug Administration Bacteriological Analytical Manual reference culture methods only in the following instances: medium level for orange juice with PBS as diluent and low level for pet food with 0.1% peptone water as diluent, where reference method counts were higher than those of NeoFilm; medium level for cake mix with PBS, and low and medium levels for cake mix with 0.1% peptone water, where NeoFilm produced higher counts than the reference method. In addition to the method comparison study with five matrixes, robustness and stability/lot-to-lot testing were also performed. Results of robustness testing showed no significant effect on results even with perturbation to three assay parameters simultaneously. Results of testing of three lots of devices ranging in age from 2 to 26 months post-manufacture showed no significant differences in performance.

Validation of the ANSR® Listeria Method for Detection of Listeria spp. in Selected Foods.

ANSR® Listeria was previously certified as Performance Tested Method(SM) 101202 for detection of Listeria spp. on selected environmental surfaces. This study proposes a matrix extension to the method for detection of Listeria spp. in selected food matrixes. The method is an isothermal nucleic acid amplification assay based on the nicking enzyme amplification reaction technology. Following single-step sample enrichment for 16-24 h, the assay is completed in less than 50 min, requiring only simple instrumentation. Inclusivity testing was performed using a panel of 51 strains of Listeria spp., representing the species L. grayi, L. innocua, L. ivanovii, L. monocytogenes, L. seeligeri, and L. welshimeri. All strains tested were detected by the ANSR assay. Exclusivity testing of 30 strains representing non-Listeria Gram-positive bacteria yielded no evidence of cross-reactivity. Performance of the ANSR method for detection of Listeria spp. was compared to that of reference culture procedures for pasteurized liquid egg, pasteurized 2% milk, Mexican-style cheese, ice cream, smoked salmon, lettuce, cantaloupe, and guacamole. Data obtained in these unpaired studies and analyzed using a probability of detection model demonstrated that there were no statistically significant differences in results between the ANSR and reference culture methods, except for milk at 16 h and cantaloupe. In milk and smoked salmon, ANSR sensitivity was low at 16 h and therefore the recommended incubation time is 24 h. In cantaloupe, ANSR was found to be more sensitive than the reference culture method at both 16 and 24 h in independent laboratory testing. The ANSR Listeria method can be used as an accurate, rapid, and simple alternative to standard culture methods for detection of Listeria spp. in selected food types.

Semiquantitative determination of mesophilic, aerobic microorganisms in cocoa products using the Soleris NF-TVC method.

The Soleris Non-fermenting Total Viable Count method was previously validated for a wide variety of food products, including cocoa powder. A matrix extension study was conducted to validate the method for use with cocoa butter and cocoa liquor. Test samples included naturally contaminated cocoa liquor and cocoa butter inoculated with natural microbial flora derived from cocoa liquor. A probability of detection statistical model was used to compare Soleris results at multiple test thresholds (dilutions) with aerobic plate counts determined using the AOAC Official Method 966.23 dilution plating method. Results of the two methods were not statistically different at any dilution level in any of the three trials conducted. The Soleris method offers the advantage of results within 24 h, compared to the 48 h required by standard dilution plating methods.

Validation of the Soleris direct yeast and mold method for semiquantitative determination of yeast and mold in a variety of foods.

A study was carried out to determine the efficacy of the Soleris Direct Yeast and Mold (DYM) automated growth-based method for semiquantitative detection of yeast and mold in a variety of food products. A probability of detection (POD) statistical model was used to compare Soleris results at multiple test thresholds (dilutions) with plate counts determined using the U.S. Food and Drug Administration Bacteriological Analytical Manual, Chapter 18, dilution plating procedure. Fourteen naturally contaminated food products were tested, with Soleris testing performed at three or more threshold levels for each food. Using the POD model, the majority of Soleris test results were in statistical agreement with the reference plating procedures. The exceptions included a single threshold level in yogurt, black pepper, dried fruit, and dry pet food, and two levels in nonfat dry milk and saw palmetto powder. In all but one of these instances, the exception being pet food, the statistical disagreement was due to Soleris estimating a higher level of contamination than the reference method. Results of ruggedness testing showed that the Soleris method produced accurate results even when significant variances in a critical operating parameter, incubation temperature, were introduced. Results of the internal and independent laboratory validation studies showed that the Soleris DYM method can be used as an accurate alternative to conventional dilution plating procedures for evaluation of yeast and mold counts at threshold levels, while saving as much as 72 h in analysis time.

Validation of the ANSR Salmonella method for detection of Salmonella spp. in a variety of foods. Performance Tested Method 061203.

This study represents a proposal to extend the matrix claims for the ANSR Salmonella test, Performance Tested Method 061203. The test is based on the nicking enzyme amplification reaction (NEAR) isothermal nucleic acid amplification technology. The assay platform features simple instrumentation, minimal labor, and following a single-step 16-24 h enrichment (depending on sample type), an extremely short assay time of 30 min including sample preparation. Detection is real-time using fluorescent molecular beacon probes. ANSR Salmonella was originally validated for detection of Salmonella spp. in chicken carcass rinse, raw ground turkey, raw ground beef, hot dogs, and oat cereal, and on stainless steel, plastic, sealed concrete, ceramic tile, and rubber surfaces. The matrixes tested in this study include pet food, ice cream, soy flour, raw almonds, peanut butter, spinach, black pepper, raw frozen shrimp, cocoa powder, and pasteurized dried egg. In unpaired comparative testing there were no statistically significant differences in the number of positive results obtained with the ANSR and the reference culture methods. Enrichment for 16 h was effective for all commodities tested except ice cream, black pepper, dried pasteurized egg, and 375 g samples of dry pet food, for which enrichment for 24 h is indicated.

Evaluation of the ANSR for Salmonella assay for identification of Salmonella spp. from colony picks from selective/differential agar media: first action 2013.14.

A collaborative study was conducted to evaluate performance of the ANSR for Salmonella assay for identification of Salmonella spp. from colony picks taken from selective/differential agar media. The ANSR Salmonella assay is an isothermal nucleic acid amplification test based on the nicking enzyme amplification reaction chemistry. The test can be completed in less than 40 min including sample preparation. A total of 18 laboratories representing industry, government, academic, and commercial testing laboratories participated in the study. Each collaborator tested up to 84 samples, comprised of colony picks of six Salmonella spp. and six non-salmonellae taken from six selective/differential agar media as well as tryptic soy agar. A total of 1441 analyses were performed, 1416 of which gave the correct identification, for overall accuracy of 98.3%. For identification of Salmonella spp., 755 of 756 tests (99.9%) produced the correct result. For identification of non-salmonellae as such, 661 of 685 assays (96.5%) produced the correct result. Of the 18 laboratories, 15 produced data sets with 99-100% accuracy. The majority of false-positive results were clustered in three laboratories; analysis of raw data suggests procedural difficulties in at least two cases, which may explain the atypical data from these collaborators. The ANSR Salmonella assay can be used as a rapid, accurate adjunct or alternative to biochemical testing for identification of presumptive Salmonella spp. isolates.

Validation study of the Veratox R5 rapid ELISA for detection of gliadin.

Neogen Corp. developed the Veratox R5 Gliadin test kit for the detection of gliadin based on the monoclonal antibody R5 developed by Enrique Mendez (1). The purpose of this study was to validate the method under the requirements of the AOAC Research Institute Performance Tested Method program. There are two AOAC Official Methods for gluten detection in foods, 991.19 and 2012.01 (2), both of which are ELISAs. With the R5 Mendez method listed in the CODEX Alimentarius as a type 1 method for the detection of gluten in foods, the need to have additional rapid test kits validated by the AOAC Research Institute exists.

Validation of the Soleris NF-TVC method for determination of total viable count in a variety of foods.

A study was conducted to determine the efficacy of the Soleris Non-fermenting-Total Viable Count (NF-TVC) automated growth-based method for semiquantitative detection of mesophilic, aerobic microorganisms in a variety of food products. A probability of detection (POD) statistical model was used to compare Soleris results at multiple test thresholds (dilutions) with aerobic plate counts determined using reference dilution plating procedures. Nine naturally contaminated food products were tested, with Soleris testing performed at three or four threshold levels for each food. Using the POD model, all Soleris test results were in statistical agreement with the reference plating procedures with the exception of a single threshold level in two trials with black pepper, and a single threshold level in the independent laboratory trial with cheesecake. Results of ruggedness testing showed that the Soleris method produced accurate results even when minor variances in operating parameters, including sample volume and incubation temperature, were introduced. Results of the internal and independent laboratory validation studies showed that the Soleris NF-TVC method can be used as an accurate alternative to conventional dilution plating procedures for evaluation of microbial counts at threshold levels, while saving 24 h or more in analysis time.

Validation of the ANSR Listeria method for detection of Listeria spp. in environmental samples.

ANSR Listeria is a new diagnostic assay for detection of Listeria spp. in sponge or swab samples taken from a variety of environmental surfaces. The method is an isothermal nucleic acid amplification assay based on the nicking enzyme amplification reaction technology. Following single-step sample enrichment for 16-24 h, the assay is completed in 40 min, requiring only simple instrumentation. In inclusivity testing, 48 of 51 Listeria strains tested positive, with only the three strains of L. grayi producing negative results. Further investigation showed that L. grayi is reactive in the ANSR assay, but its ability to grow under the selective enrichment conditions used in the method is variable. In exclusivity testing, 32 species of non-Listeria, Gram-positive bacteria all produced negative ANSR assay results. Performance of the ANSR method was compared to that of the U.S. Department of Agriculture-Food Safety and Inspection Service reference culture procedure for detection of Listeria spp. in sponge or swab samples taken from inoculated stainless steel, plastic, ceramic tile, sealed concrete, and rubber surfaces. Data were analyzed using Chi-square and probability of detection models. Only one surface, stainless steel, showed a significant difference in performance between the methods, with the ANSR method producing more positive results. Results of internal trials were supported by findings from independent laboratory testing. The ANSR Listeria method can be used as an accurate, rapid, and simple alternative to standard culture methods for detection of Listeria spp. in environmental samples.

Validation of the ANSR Salmonella method for detection of Salmonella spp. in selected foods and environmental samples.

ANSR Salmonella is a new molecular diagnostic assay for detection of Salmonella spp. in foods and environmental samples. The test is based on the nicking enzyme amplification reaction (NEAR) isothermal nucleic acid amplification technology. The assay platform features simple instrumentation, minimal labor, and, following a single-step 10-24 h enrichment (depending on sample type), an extremely short assay time of 30 min, including sample preparation. Detection is real-time using fluorescent molecular beacon probes. Inclusivity testing was performed using a panel of 113 strains of S. enterica and S. bongori, representing 109 serovars and all genetic subgroups. With the single exception of the rare serovar S. Weslaco, all serovars and genetic subgroups were detected. Exclusivity testing of 38 non-salmonellae, mostly Enterobacteriaceae, yielded no evidence of cross-reactivity. In comparative testing of chicken carcass rinse, raw ground turkey, raw ground beef, hot dogs, and oat cereal, there were no statistically significant differences in the number of positive results obtained with the ANSR and the U.S. Department of Agriculture-Food Safety and Inspection Service or U.S. Food and Drug Administration/Bacteriological Analytical Manual reference culture methods. In testing of swab or sponge samples from five different environmental surfaces, four trials showed no statistically significant differences in the number of positive results by the ANSR and the U.S. Food and Drug Administration/ Bacteriological Analytical Manual reference methods; in the trial with stainless steel surface, there were significantly more positive results by the ANSR method. Ruggedness experiments showed a high degree of assay robustness when deviations in reagent volumes and incubation times were introduced.

Validation of the Reveal® 3-D for Gluten Assay for Detection of Gluten in Clean-in-Place Rinses and Stainless Steel Environmental Surfaces: AOAC Performance Tested MethodSM 122201.

BACKGROUND: Reveal® 3-D for Gluten is an immunochromatographic assay for the qualitative detection of gluten in environmental samples. The test uses monoclonal antibodies reactive to prolamins in wheat. OBJECTIVE: The objective of the study was to validate the Reveal 3-D test for detection of gluten in clean-in-place rinse and swabs from a stainless steel surface. METHODS: Elements of the study included food selectivity and interference testing, matrix testing, an assay robustness study, and reagent stability/lot-to-lot consistency testing. Wheat flour was used as the spiking material for all matrixes. RESULTS: In selectivity and interference testing, nine target matrixes all tested positive and 36 of 39 non-target matrixes tested negative. Almond flour, sesame flour, and cornstarch produced positive results as 100% commodities; reactivity can be eliminated with dilution or by testing without use of food extraction buffer, which is not a standard part of the environmental testing method. With a gluten spike at 9.3 mg/kg, chestnut flour, guar gum, and xanthan gum as 100% commodities inhibited the ability of the assay to detect gluten when tested without dilution. In quaternary ammonium clean-in-place rinse and swabs from stainless steel, 100% positive results were obtained at levels of 2.8 mg/kg and 4.7 µg/100 cm2, respectively. Results of independent laboratory testing of swabs from stainless steel supported those of internal trials. Robustness testing showed that introducing variations to three operating parameters simultaneously had no adverse effect on assay performance. In the reagent stability study, data supported kit expiration dating of 11 months. CONCLUSION: Results of the current study show that the Reveal test is an accurate and reliable method for qualitative detection of gluten in select clean-in-place rinse and environmental samples. HIGHLIGHTS: The Reveal test was able to detect gluten at levels of 2.8 ppm in clean-in-place rinse and 4.7 µg/100 cm2 in swabs from stainless steel.

Validation of the Soleris E. coli method for detection and semi-quantitative determination of Escherichia coli in foods.

The performance of the Soleris E. coli method was compared with that of the ISO 7251 most probable number (MPN) and detection reference methods for Escherichia coli. The Soleris E. coli method is a growth-based, rapid, automated system composed of temperature-controlled incubation chambers and photodiode-based optical detection devices for measurement of color changes in a prepared medium vial. A dilution of the test sample homogenate is inoculated directly into the vial. Products of E. coli metabolism alter the color of the medium over time, and this change is monitored by the Soleris instrument. The test is used in a dilute-to-specification or specification monitoring manner in which the result is positive or negative around a desired cutoff (in CFU/g) determined by the dilution and volume of sample homogenate added to the vial. Alternatively, the test is used for zero tolerance determinations (e.g., absence in 25 g) by performing an off-line pre-enrichment step followed by transfer of a portion of the pre-enrichment culture to the Soleris vial. Six E. coli strains originating from food sources were inoculated individually into six food commodities: frozen green beans, Echinacea powder, cocoa powder, sweetened condensed milk, pasteurized liquid egg, and shredded mozzarella cheese. Uninoculated samples were included in each trial. The results obtained by the ISO 7251 detection method and the Soleris E. coli method were shown to be in agreement by Chi-square analysis when the presence of E. coli was determined in 25 g of sample. Results from the Soleris E. coli dilute-to-specification method and the ISO 7251 MPN method were found to be in agreement by probability of detection statistical analysis. In inclusivity testing, 52 of 53 E. coli strains were detected within 24 h. Only a non-thermoduric strain of serotype O157:H43 was not detected. In exclusivity testing, all 31 strains tested produced negative results. Results of ruggedness experiments show that accurate results can be obtained even when the operating temperature of the Soleris instrument is set beyond normal tolerances. The internal and independent laboratory studies demonstrated that the Soleris E. coli method could be successfully utilized as an alternative to the reference methods, with a significant time savings of 2 to 3 days.

Reveal Listeria 2.0 test for detection of Listeria spp. in foods and environmental samples.

A Performance Tested Method validation study was conducted for a new lateral flow immunoassay (Reveal Listeria 2.0) for detection of Listeria spp. in foods and environmental samples. Results of inclusivity testing showed that the test detects all species of Listeria, with the exception of L. grayi. In exclusivity testing conducted under nonselective growth conditions, all non-listeriae tested produced negative Reveal assay results, except for three strains of Lactobacillus spp. However, these lactobacilli are inhibited by the selective Listeria Enrichment Single Step broth enrichment medium used with the Reveal method. Six foods were tested in parallel by the Reveal method and the U.S. Food and Drug Administration/Bacteriological Analytical Manual (FDA/BAM) reference culture procedure. Considering data from both internal and independent laboratory trials, overall sensitivity of the Reveal method relative to that of the FDA/BAM procedure was 101%. Four foods were tested in parallel by the Reveal method and the U.S. Department of Agriculture-Food Safety and Inspection Service (USDA-FSIS) reference culture procedure. Overall sensitivity of the Reveal method relative to that of the USDA-FSIS procedure was 98.2%. There were no statistically significant differences in the number of positives obtained by the Reveal and reference culture procedures in any food trials. In testing of swab or sponge samples from four types of environmental surfaces, sensitivity of Reveal relative to that of the USDA-FSIS reference culture procedure was 127%. For two surface types, differences in the number of positives obtained by the Reveal and reference methods were statistically significant, with more positives by the Reveal method in both cases. Specificity of the Reveal assay was 100%, as there were no unconfirmed positive results obtained in any phase of the testing. Results of ruggedness experiments showed that the Reveal assay is tolerant of modest deviations in test sample volume and device incubation time.

Validation study of the BetaStar plus lateral flow assay for detection of beta-lactam antibiotics in milk.

A validation study designed to meet the requirements of the AOAC Research Institute and the U.S. Food and Drug Administration, Center for Veterinary Medicine (FDA/CVM) was conducted for a receptor and antibody-based, immunochromatographic method (BetaStar Plus) for detection of beta-lactam antibiotic residues in raw, commingled bovine milk. The assay was found to detect amoxicillin, ampicillin, ceftiofur, cephapirin, cloxacillin, and penicillin G at levels below the FDA tolerance/safe levels, but above the maximum sensitivity thresholds established by the National Conference on Interstate Milk Shipments (NCIMS). Results of the part I (internal) and part II (independent laboratory) dose-response studies employing spiked samples were in close agreement. The test was able to detect all six drugs at the approximate 90/95% sensitivity levels when presented as incurred residues in milk collected from cows that had been treated with the specific drug. Selectivity of the assay was 100%, as no false-positive results were obtained in testing of 1031 control milk samples. Results of ruggedness experiments established the operating parameter tolerances for the BetaStar Plus assay. Results of cross-reactivity testing established that the assay detects certain other beta-lactam drugs (dicloxacillin and ticarcillin), but it does not cross-react with any of 30 drugs belonging to other classes. Abnormally high bacterial or somatic cell counts in raw milk produced no interference with the ability of the test to detect beta-lactams at tolerance/safe levels.

Emergency Response Validation of the Soleris® Direct Yeast and Mold Method for Detection of Yeast and Mold in Dried Cannabis Flower: AOAC Performance Tested MethodSM 051301.

BACKGROUND: Soleris® Direct Yeast and Mold (DYM) is a growth-based, automated method for detection of yeast and mold in select foods and other sample types including nutraceuticals and cosmetics. The Soleris method is used in a "dilute-to-specification" or threshold manner in which a result is scored as positive or negative around a predetermined cutoff (in CFU/g) established by the dilution and volume of sample homogenate tested. OBJECTIVE: The objective of this study was to validate the method for testing of dried cannabis flower. The validation was conducted under the Emergency Response Validation program of the AOAC Research Institute. METHOD: The study included inclusivity and exclusivity testing, in particular testing of yeast and mold species associated with cannabis, and a matrix study in which Soleris method presumptive results were compared with Soleris confirmed results using Dichloran Rose-Bengal Chloramphenicol (DRBC) agar for confirmation. Samples at four different levels of natural yeast and mold contamination were tested at two test thresholds. RESULTS: In inclusivity testing, all 63 yeast and mold strains tested produced positive results within the specified test duration of 72 h. In exclusivity testing, 36 of 37 strains tested produced no detection within 72 h. In matrix testing, there were no significant differences between Soleris presumptive and confirmed results for any contamination level or test threshold as determined by probability of detection analysis. CONCLUSIONS: Results indicate that the Soleris method is an effective procedure for detection of yeast and mold in dried cannabis flower. HIGHLIGHTS: With the Soleris method, results are available within 72 h compared with the 5-7 days required for microbiological culture methods.

Validation of the Soleris® Coliform Method for Detection of Coliform Bacteria in Dried Cannabis Flower: AOAC Performance Tested MethodSM 010302.

BACKGROUND: The Soleris® Coliform Vial is a growth-based, automated method for detection of coliform bacteria in foods and other consumer products such as nutraceuticals and cosmetics. The method was granted AOAC Performance Tested MethodSM certification for select foods after successful completion of a validation study. OBJECTIVE: The objective of the current study was to validate the Soleris coliform method for use with dried cannabis flower (>0.3% delta 9-tetrahydrocannabinol). METHODS: A comparative matrix study was performed in which naturally contaminated dried cannabis flower was tested with the Soleris coliform method and with the U.S. Food and Drug Administration Bacteriological Analytical Manual solid medium method. Multiple lots of dried cannabis flower were obtained, pre-screened for coliforms, and blended to produce test materials at four different contamination levels ranging from 4.5 to 1600 CFU/g. Each material was tested at three different Soleris detection threshold levels determined by the dilution used to inoculate the Soleris vials. Probability of detection analysis was performed to determine if differences in the number of positive results obtained with the two methods were significant. RESULTS: For all four dried cannabis flower materials, at all three Soleris test thresholds, there were no significant differences in the number of positive results obtained with the Soleris and cultural plating methods as determined by probability of detection analysis at P < 0.05. CONCLUSION: The Soleris coliform test is an accurate method for detection of coliform bacteria in dried cannabis flower. HIGHLIGHTS: The Soleris coliform method provides cannabis industry QC personnel with an effective method for analysis of dried cannabis flower and produces results in 18-24 h.

Validation of the Soleris® NF-TVC Method for Detection of Aerobic, Mesophilic Microorganisms in Dried Cannabis Flower: AOAC Performance Tested MethodSM 071203.

BACKGROUND: Soleris® Non-Fermenting Total Viable Count (NF-TVC) is a growth-based, automated method for semiquantitative detection of aerobic, mesophilic microorganisms in foods and other consumer products such as nutraceuticals and cosmetics. The method was granted AOAC Performance Tested MethodSM status for select foods after successful completion of a validation study. OBJECTIVE: The objective of the current study was to validate the Soleris NF-TVC method for use with dried cannabis flower [>0.3% delta 9-tetrahydrocannabinol (THC)]. METHODS: The validation consisted of a comparative matrix study in which naturally contaminated dried cannabis flower was tested with the Soleris NF-TVC method and with the AOAC Official Methods of AnalysisSM  966.23 dilution plating method. Multiple lots of dried cannabis flower were obtained, pre-screened for total aerobic, mesophilic viable count levels, and blended to produce test materials at four different levels of contamination ranging from 1.0 × 103 to 2.2 × 105 CFU/g. Each material was tested at three different Soleris detection threshold levels determined by the dilution used to inoculate the Soleris vials. Probability of detection analysis was performed to determine if differences in the number of positive results obtained with the two methods were significant. RESULTS: For all four dried cannabis flower materials, at all three Soleris test thresholds, there were no significant differences in performance comparing the Soleris and reference dilution plating methods as determined by probability of detection analysis at P < 0.05. CONCLUSIONS: It is concluded that the Soleris NF-TVC method is an accurate and effective method for detection of aerobic, mesophilic microorganisms in dried cannabis flower. HIGHLIGHTS: The Soleris NF-TVC method provides cannabis industry quality control personnel with an effective method for analysis of dried cannabis flower and produces results in 24-48 h.

Validation of the Soleris®Enterobacteriaceae Method for Detection of Enterobacteriaceae in Dried Cannabis Flower: AOAC Performance Tested MethodSM 121901.

BACKGROUND: The Soleris®Enterobacteriaceae vial is a growth-based, automated method for detection of bacteria of the family Enterobacteriaceae in foods and other sample types including nutraceuticals and cosmetics. The Soleris method is used in a "dilute-to-specification" or threshold manner, in which a result is scored as positive or negative around a predetermined cutoff (in CFU/g) established by the dilution and volume of sample homogenate tested. The Soleris method was granted AOAC Performance Tested MethodSM (PTM) status for select foods after successful completion of a validation study (PTM 121901). OBJECTIVE: The objective of this study was to validate the method for the detection of Enterobacteriaceae in dried cannabis flower [>0.3% delta-9-tetrahydrocannabinol (THC)]. METHODS: The matrix study included comparison of Soleris method presumptive results to confirmation from the Soleris vials, and comparison of the Soleris confirmed results to those of the ISO 21528-2:2017 colony count method. Test materials at four different levels of contamination ranging from 7.8 to 3500 CFU/g were tested at three dilutions, corresponding to test thresholds. RESULTS: Probability of detection analysis at P < 0.05 showed there were no significant differences between Soleris presumptive and confirmed results, and no significant differences between Soleris confirmed and ISO 21528-2:2017 results. CONCLUSION: The results provided evidence that the Soleris Enterobacteriaceae test is an accurate method for detection of Enterobacteriaceae in dried cannabis flower. HIGHLIGHTS: The Soleris Enterobacteriaceae method provides cannabis industry QC personnel with an effective method for analysis of dried cannabis flower and produces results in 20-24 h.