A comparison of two procedures for the isolation of Listeria monocytogenes from raw chickens and soft cheese

A cold enrichment method and a modified FDA procedure were compared for the isolation of Listeria monocytogenes from raw chickens and soft cheese. L. monocytogenes was isolated from a total of 23 of 222 cheese and 70 of 160 chicken samples by either one or both methods. Neither method alone yielded all isolates from the two food types. Only 12 cheese and 13 chicken samples were shown to be positive by both methods, although the serotypes isolated were not always identical. On some occasions one method yielded L. monocytogenes while the other produced a different Listeria sp. Reasons for differences in the performance of the two procedures and various points of technical interest are discussed.     

Incidence and seasonal variation of Listeria species in bulk tank goat's milk

Four hundred and fifty raw goat's milk samples obtained from the bulk tanks of 39 goat farms were analyzed for Listeria spp. over a 1-year period. Modified versions of the U.S. Department of Agriculture Food Safety and Inspection Service (USDA-FSIS) and Food and Drug Administration (FDA) protocols were used for recovery of Listeria. Overall, 35 (7.8%) samples yielded Listeria spp. with Listeria monocytogenes identified in 17 of the 35 (3.8%) Listeria-positive samples. Listeria innocua was detected in 26 (5.8%) samples. Eight milk samples contained both L. monocytogenes and L. innocua. Milk samples from 18 of the 39 (46.2%) farms were positive for Listeria at least once during this 1-year study. The modified USDA-FSIS method, which used Listeria repair broth rather than University of Vermont (UVM) broth for primary enrichment followed by a 4-h nonselective incubation period, yielded more Listeria-positive samples (77.1%) than the FDA method (51.4%). All L. monocytogenes isolates belonged to serotypes 1 (62.6%) or 4 (37.4%). Moreover, five different Listeria ribotypes were identified from 34 selected L. monocytogenes isolates, 2 of which were deemed to be of clinical importance. Listeria isolation rates were markedly higher during winter (14.3%) and spring (10.4%) as compared to autumn (5.3%) and summer (0.9%) with these trends similar to those previously reported for cow's milk.     

Comparison of two chromogenic media for the detection of Listeria monocytogenes with the plating media recommended by EN/DIN 11290-1

The efficacy of two selective chromogenic culture media, Agar Listeria Ottaviani and Agosti (ALOA) and RAPID' L. mono for the detection of Listeria monocytogenes in food, was compared with that of an official culture method according to the EN/DIN 11290-01 and -02 protocols [corresponding to the section 35 LMBG (German Food Act) method]. A total of 310 pre-packed ready-to-eat food samples (100 of graved and cold smoked salmon, 130 of different raw and cooked sausages and 80 of delicatessen and mixed salads) were examined. L. monocytogenes was identified in 52 investigated salmon samples. Using two chromogenic media, 50 samples were found positive for L. monocytogenes. Compared to the reference method there were no false-positive results. By the EN/DIN 11290-01 culture procedure after the selective enrichment in Fraser broth 12 out of 130 samples of sausages were positive for L. monocytogenes. These 12 samples were also positive for L. monocytogenes with the chromogenic medium RAPID' L. mono. One sample was false negative with ALOA. Three additional samples were found positive with ALOA and four with RAPID' L. mono. The standard method was inadequate to confirm these samples as positive. Listeria spp. were isolated from 7 samples of mixed salads with both methods. One, 3 and 3 samples were found to contain L. monocytogenes, L. innocua and L. seeligeri, respectively. Both chromogenic media enabled a rapid and specific detection of L. monocytogenes within 24h after enrichment. Visual detection of pathogenic L. monocytogenes and other Listeria spp. was easier on chromogenic media.     

Evaluation of enrichment procedures for recovering Listeria monocytogenes from dairy products

Six different enrichment media and five selective plating media were compared for their suitability for the recovery of Listeria monocytogenes from dairy products. These included media used to test milk products by the U.S. Food and Drug Administration (FDA) and the U.S. Centers for Disease Control (CDC), and media developed by the U.S. Department of Agriculture (USDA) for testing meat and poultry products. Test samples included naturally contaminated goat's milk, cultured milk products and ice cream manufactured with L. monocytogenes, and unpasteurized milk inoculated with heat- and freeze-injured cells of L. monocytogenes. Generally, the media and two-stage enrichment protocol developed by the USDA, with plating of samples after two consecutive 24-h incubation periods, yielded better recoveries than all other enrichment media incubated for 24 h. A modified USDA procedure, incorporating nonselective pre-enrichment of samples by omitting acriflavine and nalidixic acid from the primary USDA enrichment broth, and transfer of a larger volume of the initial culture broth to the secondary enrichment media, significantly increased recoveries of low numbers of sublethally stressed L. monocytogenes. Prolonged incubation of samples in the FDA enrichment broth, for 7 days, did not consistently improve recoveries over the initial 24-h incubation time of the medium. The selective plating medium developed by the USDA, lithium chloride-phenylethanol-moxalactam agar, was the most effective plating agar for isolation of L. monocytogenes following enrichment of samples in any broth culture, and increased recoveries of L. monocytogenes by 19-40% compared with other selective agar media tested.     

A comparative study of the 'FDA' and 'USDA' methods for the detection of Listeria monocytogenes in foods

Nineteen laboratories across Canada took part in a comparative study of the 'FDA' and 'USDA' methods for the detection of Listeria monocytogenes in foods and environmental samples. The results show that the enrichment period of the FDA method can be shortened from 7 to 2 days without substantially reducing the number of positive samples. With a limited number of samples, the USDA method proved to be slightly more efficient in isolating L. monocytogenes than the FDA method. Fraser broth, in principle, proved to be useful as a screening tool but is not very selective. Oxford agar and lithium chloride-phenylethanol-moxalactam medium were better than modified McBride's agar in isolating this microorganism.     

Detection of Listeria monocytogenes in pigs and pork

In this study, we surveyed hogs (n = 300) as well as pork products (ground pork and raw chitterlings) for Listeria monocytogenes. Pig specimens collected before (tonsil swabs) and after slaughter (tonsils, lymph nodes, carcass swabs, and rectal contents) were examined for L. monocytogenes by enrichment with conventional enrichment broths followed by subculturing to selective agar. A multiplex polymerase chain reaction assay targeting the highly conserved 16S rRNA gene of the Listeria species as well as the hlyA gene unique to L. monocytogenes was used to screen aliquots of the enrichment (method I) as well as to confirm presumptive Listeria colonies from Columbia agar with 0.05% glucose supplemented with polymyxin B-acriflavine-lithium chloride-ceftazidime-aesculin-mannitol (PALCAM; method II). Subculturing to PALCAM agar was the more sensitive of the two methods on the basis of the overall detection of Listeria. For hog tissues, method I detected L. monocytogenes (0.87% positive) and no other Listeria spp. in all samples (n = 1,849). In contrast, method II detected significantly more (P < 0.05) L. monocytogenes (2.38%) and Listeria spp. (0.38%) in these tissues. For small intestines (n = 300 raw chitterlings), L. monocytogenes was identified in 8.3% of enrichments with University of Vermont modified Listeria enrichment broth; plating to PALCAM slightly improved recovery (9%). Overall, ground pork samples (n = 340) harbored L. monocytogenes (45% positive) and other Listeria species (1.5% positive), as determined by method I. Subculturing to PALCAM significantly (P < 0.05) improved the detection of L. monocytogenes (50.2%) but not that of other Listeria species (1.7%). L. monocytogenes isolates (n = 243) were assigned to serotype 1 (53.5%), serotype 4 (25%), and serotypes other than 1 and 4 (21.4%).     

Comparative evaluation of culture- and BAX polymerase chain reaction-based detection methods for Listeria spp. and Listeria monocytogenes in environmental and raw fish samples

Two commercial polymerase chain reaction (PCR)-based Listeria detection systems, the BAX for Screening/Listeria monocytogenes and the BAX for Screening/Genus Listeria, and a culture-based detection system, the Biosynth L. monocytogenes Detection System (LMDS), were evaluated for their ability to detect L. monocytogenes and Listeria spp. in raw ingredients and the processing environment. For detection of L. monocytogenes from raw fish, enrichment was performed in Listeria enrichment broth (LEB), followed by plating on both Oxford agar and LMDS L. monocytogenes plating medium (LMPM). Detection of Listeria and L. monocytogenes from environmental samples was performed using LMDS enrichment medium, followed by plating on both Oxford agar and LMPM. A total of 512 environmental samples and 315 raw fish were taken from two smoked fish processing facilities and screened using these molecular and cultural Listeria detection methods. The BAX for Screening/L monocytogenes was used to screen raw fish and was 84.8% sensitive and 100% specific. The BAX for Screening/Genus Listeria was evaluated on environmental samples and had 94.7% sensitivity and 97.4% specificity. In conjunction with enrichment in LEB, LMPM had a sensitivity and specificity for detection of L. monocytogenes from raw fish of 97.8 and 100%, respectively. Use of LMDS enrichment medium followed by plating on LMPM allowed for sensitivity and specificity rates of 94.8 and 100%, respectively, for detection of L. monocytogenes from environmental samples. We conclude that both the BAX systems and the use of LMPM allow for reliable and rapid detection of Listeria spp. and L. monocytogenes. While the BAX systems provide screening results in about 3 days, the use of LMPM allows for L. monocytogenes isolation in 4 to 5 days.     

Efficiency of four secondary enrichment protocols in differentiation and isolation of Listeria spp. and Listeria monocytogenes from smoked fish processing chains

Four secondary enrichment protocols (conventional methods: UVM II, Fraser 24 h and Fraser 48 h: Impedimetric method: Listeria electrical detection medium) were studied for their ability to isolate Listeria spp. and Listeria monocytogenes from fish and environmental samples collected along the processing chain of cold-smoked fish. From all methods, Listeria spp. and L. monocytogenes were respectively present in 56 and 34 of 315 samples analysed. Fraser broth incubated for 48 h gave the fewest false negative Listeria spp. results [4/56; (7.1%)], but concurrently only 15/34 (44.1%) samples were correctly identified as containing L. monocytogenes, Listeria electrical detection (LED) medium detected only 36/56 (64.3%) Listeria spp. positive samples. Despite this lower isolation rate, LED identified 20/34 (58.8%) L. monocytogenes positive samples correctly and gave fewer false positive results. The overall conclusion was that more than one isolation method is needed to accurately estimate L. monocytogenes contamination rates.     

METHODS FOR THE DETECTION OF FOODBORNE LISTERIA MONOCYTOGENES IN THE U.S.

A review of methods for the isolation and detection of Listeria monocytogenes used in the United States is presented. Methods reviewed include the cold enrichment technique, the FDA Method, the USDA Method, and two rapid techniques, the Listeria-Tek enzyme-linked immunosorbent assay and the Gene-Trak Listeria Assay. Comparisons of new rapid biochemical test kits, the MICRO-ID LISTERIA System, API Listeria, and the Rosco system vs. conventional tests of identification are also reviewed. Contemporary isolation methods detect all Listeria species so confirmation of L. monocytogenes is still necessary after isolation. The USDA method is the most practical of the cultural methods due to the rapid reporting of negative samples. Rapid methods (Listeria-Tek and the Gene-Trak Listeria Assay) are faster and more objective than cultural procedures but still depend on sample enrichment for detection of Listeria. These rapid techniques are best utilized when screening large numbers of food samples. All the rapid biochemical test kits reviewed provide fast reliable identification of Listeria species when compared to classical techniques. However, the API Listeria system identifies the test strains without a complementary CAMP test. Refinements are still needed in both cultural and rapid methods. Future Listeria methodology must emphasize molecular techniques not requiring enrichment which would be both rapid and specific for L. monocytogenes.     

Application of a multiplex polymerase chain reaction assay for the simultaneous confirmation of Listeria monocytogenes and other Listeria species in turkey sample surveillance

A multiplex polymerase chain reaction was developed to simultaneously identify Listeria monocytogenes and species of the genus Listeria. Two sets of primers were used, with the first amplifying a 938-bp region of the 16S rRNA gene that is highly conserved in all Listeria species and the second amplifying a 174-bp region of the listeriolysin (hlyA) gene of L. monocytogenes. Thus, isolates of Listeria spp. yield a single 938-bp product, whereas L. monocytogenes isolates yield both the 938-bp product and a 174-bp product. The specificity of the assay was verified with all six Listeria species and 11 serotypes of L. monocytogenes, as well as nonrelated bacteria. The multiplex PCR assay was used to determine the incidence of Listeria spp., especially L. monocytogenes, in mechanically separated turkey samples (n = 150 samples). L. monocytogenes strains were selected by using the University of Vermont two-step enrichment protocol and plating to selective Palcam agar. The multiplex PCR assay was used for verification of presumptive Listeria colonies. Approximately 38% of mechanically separated turkey samples (57 of 150) yielded L. monocytogenes; an additional 18% of these samples (27 of 150) harbored other Listeria spp. Fifty-one percent (29 of 57) of the L. monocytogenes isolates were of serogroup 1, 44% (25 of 57) were of serogroup 4, and 2% (1 of 57) were assigned to serogroups other than 1 and 4.     

Listeria spp. in broiler flocks: recovery rates and species distribution investigated by conventional culture and the EiaFoss method

The occurrence of Listeria monocytogenes in samples from broiler houses and cloacal swabs taken at the abattoir was investigated. An automated immunobased method (EiaFoss) was used, and 42 samples were also analysed by conventional culture; both methods were based on a two-step selective enrichment using CHR.4.17; Fraser and Fraser broths. L. monocytogenes was isolated from two of 71 broiler flocks, yielding an estimated flock prevalence of 3%. The flock prevalence of L. inocua was estimated to 13%, and it was speculated that the potential of this apathogenic bacteria to grow faster than L. monocytogenes in enrichment broths may lead to an underestimation of the prevalence of L. monocytogenes. Furthermore, as L. inocua was also detected by the EiaFoss method, a significant amount of bacterial confirmation work had to be done. Of 42 samples analysed by conventional culture, four yielded L. inocua, of which two were not positive by EiaFoss.     

The incidence of Salmonella and Listeria in raw milk from farm bulk tanks in England and Wales

Raw milks from farm bulk tanks in England and Wales were sampled over a 15 month period in 1992–93 and analysed for Salmonella spp, Listeria spp and Listeria monocytogenes. Of 1673 samples tested for Salmonella spp, six (0.36%) yielded a positive result. A total of 2009 samples were analysed for Listeria spp. Of these, 310 (15.43%) were found positive for Listeria spp, 102 (5.08%) of the positive samples yielded L monocytogenes, which represented 33% of the Listeria isolations. There was a significant rise in the isolation rate for listerias between October and March broadly in line with the period during which the cows were housed indoors. The highest isolation rate was in January, 25.89% in 1992 and 28.4% in 1993, and the lowest isolation rate (3.1%) in August. Although the incidence of L monocytogenes broadly paralleled the trend for total Listeria, the highest percentage of L monocytogenes to total Listeria was found in the months of April to September when the total Listeria isolations were at a minimum. Thirty two (1.59%) samples were found to be positive for Listeria spp prior to enrichment procedure, with 17 (0.85%) positive for L monocytogenes. The highest counts reported for L monocytogenes were 62 and 30 colony forming units (cfu)/ml with over 60% at a level of less than 10 cfu/ml. Of the direct isolations, some 78% were obtained between the months of March and July.     

Molecular Subtyping and Tracking of Listeria monocytogenes in Latin-Style Fresh-Cheese Processing Plants

Latin-style fresh cheeses, which have been linked to at least 2 human listeriosis outbreaks in the United States, are considered to be high-risk foods for Listeria monocytogenes contamination. We evaluated L. monocytogenes contamination patterns in 3 Latin-style fresh-cheese processing plants to gain a better understanding of L. monocytogenes contamination sources in the manufacture of these cheeses. Over a 6-mo period, 246 environmental samples were collected and analyzed for L. monocytogenes using both the Food and Drug Administration (FDA) method and the Biosynth L. monocytogenes detection system (LMDS). Finished cheese samples from the same plants (n = 111) were also analyzed by the FDA method, which was modified to include L. monocytogenes plating medium (LMPM) and the L. monocytogenes confirmatory plating medium (LMCM) used in the LMDS method. Listeria monocytogenes was detected in 6.3% of cheese and 11.0% of environmental samples. Crates, drains, and floor samples showed the highest contamination rates, with 55.6, 30.0, and 20.6% L. monocytogenes positive samples, respectively. Finished products and food contact surfaces were positive in only one plant. The FDA method showed a higher sensitivity than the LMDS method for detection of L. monocytogenes from environmental samples. The addition of LMPM and LMCM media did not further enhance the performance of the FDA method for L. monocytogenes detection from finished products. Molecular subtyping (PCR-based allelic analysis of the virulence genes actA and hly and automated ribotyping) was used to track contamination patterns. Ribotype DUP-1044A, which had previously been linked to a 1998 multistate human listeriosis outbreak in the United States, was the most commonly identified subtype (20/36 isolates) and was isolated from 2 plants. This ribotype was persistent and widespread in one factory, where it was also responsible for the contamination of finished products. We hypothesize that this ribotype may represent a clonal group with a specific ability to persist in food processing environments. While previous listeriosis outbreaks were linked to Latin-style fresh cheeses made from unpasteurized milk, the presence of this organism in pasteurized cheese products illustrates that persistent environmental contamination also represents an important source of finished product contamination.     

Prevalence and antimicrobial resistance of Listeria monocytogenes isolated in chicken slaughterhouses in Northern Greece

This study was conducted to determine the prevalence and antimicrobial resistance of Listeria monocytogenes recovered from chicken carcasses in slaughterhouses in Northern Greece. A total of 100 poultry samples (300 carcasses) were examined for Listeria spp. The samples were neck skin taken from four different slaughterhouses in Northern Greece. Forty samples were also taken from the environment of the slaughterhouses. Identification of L. monocytogenes was carried out by PCR and fingerprinting of the isolates by random amplified polymorphic DNA. L. monocytogenes strains isolated from chicken carcasses and from the environment of the slaughterhouses were also examined for antibiotic resistance. Fifty-five isolates of L. monocytogenes were tested for susceptibility to 20 antibiotics using the disk diffusion method. Listeria spp. were present in 99 of the poultry samples tested (99%), and 38 yielded L monocytogenes (38%). L. monocytogenes was also isolated in 80% of samples from the environment of a certain slaughterhouse, while the other slaughterhouses were found to be contaminated only with Listeria spp. All isolates were resistant to nalidixic acid and oxolinic acid, the majority of them to clindamycin, and only a few to tetracycline and oxytetracycline, whereas they were found to be susceptible to all other antimicrobials. The results of this study demonstrate a high prevalence of L. monocytogenes contamination in chicken carcasses, and all isolates were found to be sensitive to the antimicrobials most commonly used to treat human listeriosis.     

EXTINCTION OF LISTERIA MONOCYTOGENES IN SINGLE-STRENGTH ORANGE JUICE: COMPARISON OF METHODS FOR DETECTION IN MIXED POPULATIONS1

The FDA method of selective enrichment followed by selective plating on modified McBride agar was capable of detecting the presence of L. monocytogenes inoculated into a typical, commerical, reconstituted, single-strength orange juice at the 10⁰ cfu/mL level. The KOH shock treatment, formerly recommended in the FDA protocol, negatively affected recovery of Listeria at 10⁰ and 10¹ levels in juice which also had a low background microflora (10² cfu/mL total count); however, KOH treatment was required for Listeria detection in juice which had high background microflora (10⁸ cfu/mL). Two other protocols for detection of Listeria which utilized cold enrichment or different selective enrichment media were less effective than the FDA procedure due to heavy growth of background microflora. No Listeria was detected in 100 commerical orange juice samples from dairy and nondairy processors in geographically distinct areas of North America using the FDA method.     

Loss of viability by Listeria monocytogenes in commercial bovine pepsin-rennet extract

Loss of viability by Listeria monocytogenes strains California, V7, and Scott A in commercial bovine pepsin-rennet extract was determined during storage for 56 d at 7 degrees C. Four levels (10(3) to 10(6)/ml) of L. monocytogenes were added to the coagulant, and McBride listeria agar was used to determine numbers of survivors. Selected colonies thought to be L. monocytogenes were confirmed biochemically. Samples also were tested during and after completion of cold enrichment (up to 8 wk at 4 degrees C). Coagulant inoculated with 10(3) to 10(4) L. monocytogenes/ml usually was free of viable cells of the pathogen after 28 d and sometimes after 14 d, as determined by direct plating and cold enrichment. When the inoculum was 10(5) to 10(6) cells/ml, samples of coagulant usually were free of viable L. monocytogenes after 42 d and sometimes after 28 d. The three strains of L. monocytogenes behaved similarly, although strain California was somewhat less hardy in the environment of the coagulant than were the other two strains. Bovine pepsin-rennet extract, before inoculation, was free of L. monocytogenes (direct plating and cold enrichment).     

Incidence of Listeria monocytogenes in two milk processing environments, and assessment of Listeria monocytogenes blood agar for isolation

A year-long survey of two Northern Ireland milk processing plants for Listeria monocytogenes was carried out. Sample sites included the milk processing environment (walls, floors, drains, and steps), processing equipment, raw and pasteurised milk. The FDA listeria-selective enrichment procedure was used to process samples and an additional agar medium, L. monocytogenes Blood Agar (LMBA), was utilized as part of the isolation procedure in order to compare its performance to that of the recommended Oxford and Palcam agars. LMBA proved to be a very useful tool and was able to detect L. monocytogenes from 94.1% of sites compared to the 76.5% and 79.4% detection rate displayed by Oxford and Palcam agars, respectively. The overall incidence of listeria on equipment was 18.8% (6.3% L. monocytogenes), in the environment was 54.7% (40.6% L. monocytogenes) and in raw milk 44.4% (22.2% L. monocytogenes). On one occasion, L. welshimeri was isolated from pasteurised milk, probably demonstrating post-pasteurisation contamination of product. The main environmental sources of L. monocytogenes were considered to be a floor drain and stainless steel steps.     

Reduced detectability of Listeria monocytogenes in the presence of Listeria innocua

Recent foodborne crises have demonstrated the importance of monitoring food safety. In terms of microbiological criteria, food safety requires the reliable detection of pathogens such as Listeria monocytogenes along the food chain by appropriate analytical methods. However, indications exist that accompanying Listeria innocua strains suppress the growth of L. monocytogenes during selective enrichment, which may cause reduced or even inhibited detection. To study these effects, the limit of detection of L. monocytogenes was investigated in the presence of L. innocua using the International Organization for Standardization standard method ISO 11290-1 and the VIDAS LDUO system, an automated method based on enzyme-linked fluorescence technology. The challenge was to provide low initial Listeria concentrations at sufficient precision to quantify the influence on the probability of detection of L. monocytogenes. The application of reference materials appropriate for quantitative test methods and a standardized dilution procedure were necessary to ensure accurate CFU levels of defined proportions of mixtures of both Listeria species. During selective enrichment, overgrowth of L. monocytogenes by L. innocua could be confirmed, leading to high rates of false-negative results. Moreover, with both methods, a significant decrease in the detectability of L. monocytogenes could be quantified at ratios of 2:1 at very low concentrations representative of natural contamination levels often found in foods and environments. It is concluded that there is a need to improve existing procedures with respect to selective enrichment, as well as the detection techniques.     

Application of the BAX for screening/genus Listeria polymerase chain reaction system for monitoring Listeria species in cold-smoked fish and in the smoked fish processing environment

The cold-smoked fish industry was used as a model for the development of a system for monitoring Listeria spp. in foods and in the food processing environment. A total of 214 samples including raw fish, fish during the cold-smoking process, finished product, and environmental samples were collected from three processing facilities over two visits to each facility. Samples were screened for Listeria spp. using the BAX for Screening/genus Listeria polymerase chain reaction system (PCR) and by culture. Listeria spp., confirmed by the API Listeria test strip or by a PCR assay targeting the L. monocytogenes hlyA gene, were isolated from a total of 89 (41.6%) samples. Of these, 80 samples also tested positive for Listeria spp. using the BAX system. Specifically, 42 (55.3%) environmental samples (n = 76), 11 (25.6%) raw materials samples (n = 43), 20 (35.1%) samples from fish in various stages of processing (n = 57), and 7 (18.4%) finished product samples (n = 38) tested positive for Listeria spp. using the BAX system. Five (4.0%) of the 125 culture-negative samples yielded BAX system-positive results. Listeria isolates from each of nine culture-positive/BAX system-negative samples yielded a positive reaction when tested in pure culture by the BAX system, suggesting that our false-negative results were likely due to the presence of low Listeria numbers in the initial enrichment as opposed to nonreacting isolates. The employment of alternative enrichment protocols, such as the two-step enrichment recommended by the manufacturer, may increase the sensitivity of the assay.     

Comparison of automated BAX PCR and standard culture methods for detection of Listeria monocytogenes in blue Crabmeat (Callinectus sapidus) and blue crab processing plants

This study compared the automated BAX PCR with the standard culture method (SCM) to detect Listeria monocytogenes in blue crab processing plants. Raw crabs, crabmeat, and environmental sponge samples were collected monthly from seven processing plants during the plant operating season, May through November 2006. For detection of L. monocytogenes in raw crabs and crabmeat, enrichment was performed in Listeria enrichment broth, whereas for environmental samples, demi-Fraser broth was used, and then plating on both Oxford agar and L. monocytogenes plating medium was done. Enriched samples were also analyzed by BAX PCR. A total of 960 samples were examined; 59 were positive by BAX PCR and 43 by SCM. Overall, there was no significant difference (P ≤ 0.05) between the methods for detecting the presence of L. monocytogenes in samples collected from crab processing plants. Twenty-two and 18 raw crab samples were positive for L. monocytogenes by SCM and BAX PCR, respectively. Twenty and 32 environmental samples were positive for L. monocytogenes by SCM and BAX PCR, respectively, whereas only one and nine finished products were positive. The sensitivities of BAX PCR for detecting L. monocytogenes in raw crabs, crabmeat, and environmental samples were 59.1, 100, and 60%, respectively. The results of this study indicate that BAX PCR is as sensitive as SCM for detecting L. monocytogenes in crabmeat, but more sensitive than SCM for detecting this bacterium in raw crabs and environmental samples.