A comparison of immunomagnetic and surface adhesion immunofluorescent techniques for the rapid detection of Listeria monocytogenes and Listeria innocua in meat

an immunomagnetic immunofluorescent method was investigated for the rapid detection of Listeria monocytogenes and Listeria innouca . This technique involved enrichment of the suspect sample at 30°C overnight. Listeria monocytogenes cells were isolated from the enriched sample using immunomagnetic separation and Listeria were subsequently visualized using an immunofluorescent microscopy technique. This technique was used in the detection of Listeria cells from pure culture, inoculated beef mince samples and naturally contaminated retail beef mince samples. A detection level of approximately 1×10³ cfu ml⁻¹ was achieved. When compared with traditional detection methods no false negatives or positives were recorded for L. monocytogenes or L. innocua . The immunomagnetic immunofluorescent technique had a detection level similar to a previously described surface adhesion immunofluorescent technique. Isolation of the Listeria cells by surface adhesion involved dipping a membrane attached to a microscope slide into the enriched sample for 10 min. This was quicker and simpler to perform than the immunomagnetic separation technique which took 2 h to carry out.     

免疫磁珠富集技术联合选择性培养基快速检测单增李斯特菌

单增李斯特菌是一种危害极大的食源性致病菌,建立快速及特异的检测方法对于食品安全监控尤为重要。文中联合免疫磁珠与选择性培养基对不同浓度(101~105CFU/mL)单增李斯特菌进行检测,并对3种李斯特菌、金黄色葡萄球菌及副溶血弧菌进行交叉试验;同时模拟食物污染,探索免疫磁珠-平板法检测样品的检测限以及该方法的最快检测时间。结果显示特异性免疫磁珠联合选择性平板法可检出浓度为103CFU/mL及以上的单增李斯特菌;牛奶样品仅需6 h增菌能被检出,检测限为0.7 CFU/mL。联合使用免疫磁珠富集技术与选择性培养基,能在30 h内完成对牛奶样品的检测,较国标法减少38 h以上,且具有同等的灵敏度。     

Development of a surface adhesion immunofluorescent technique for the rapid isolation of Listeria monocytogenes and Listeria innocua from meat

The use of a novel surface adhesion technique to isolate Listeria monocytogenes and Listeria innocua from an enrichment meat system was developed. Minced beef samples inoculated with L. monocytogenes (10 cfu g(-1)) were incubated at 30 degrees C for 14-18 h in a suitable enrichment broth. Listeria monocytogenes cells were isolated from the enriched meat sample by surface adhesion onto a polycarbonate membrane which was attached to a glass microscope slide. The Listeria cells on the membrane were subsequently visualized using an immunofluorescent microscopy procedure. The antibody used in this technique reacts with L. monocytogenes and L. innocua. The technique was demonstrated to have a detection level of log10 3.11 cfu ml(-1). There was excellent correlation (r2 = 0.98) between the counts obtained by this surface adhesion immunofluorescent (SAIF) technique and counts obtained using traditional methods, i.e. plate counts on PALCAM. When the regression equation relating the rapid and standard methods was validated using the data from 50 retail beef mince samples, an rsd value of +/- 0.25 was obtained. No false-negative or false-positive results were recorded for L. monocytogenes or L. innocua species using the SAIF technique.     

Evaluation of luciferase reporter bacteriophage A511::luxAB for detection of Listeria monocytogenes in contaminated foods.

A511::luxAB is a recombinant derivative of a broad-host-range bacteriophage specific for the genus Listeria, transducing bacterial bioluminescence into infected cells. In this study, we have evaluated its use for rapid and easy testing of contaminated foods and environmental samples for the presence of viable Listeria cells, in comparison to the standard plating procedure. With a short preenrichment step of 20 h, the system was capable of detecting very low initial contamination rates in several foods artificially contaminated with Listeria monocytogenes Scott A cells. In ricotta cheese, chocolate pudding, and cabbage, less than one cell per g of food could be clearly identified by comparing the light emission of phage-infected samples to that of controls without lux phage. In foods having a large and complex microbial background flora, such as minced meat and soft cheese, at least 10 cells per g were necessary to produce a positive bioluminescence signal. Of 348 potentially contaminated natural food and environmental samples, 55 were found to be Listeria positive by the lux phage method. The standard plating procedure detected 57 positive samples. Some differences were observed with respect to the individual samples, i.e., the lux phage procedure detected more positive samples among the dairy products and environmental samples, whereas the plating procedure revealed more contaminated meat and poultry samples. Overall, both methods performed similarly, i.e., were equally sensitive. However, the minimum time required for detection of Listeria with the luciferase phage assay was 24 h, which is much shorter than the 4 days needed by the standard plating method. Furthermore, a most probable number technique with three parallels, based on the use of A511::luxAB for differentiation of positive and negative tubes, is described. The method enables rapid enumeration of low levels of Listeria cells in several foods tested, against the background of a competing microflora.     

Rapid detection of low levels of Listeria in foods and next-day confirmation of L. monocytogenes

Outbreaks of foodborne listeriosis caused by Listeria monocytogenes in recent years, and the high mortality rate associated with listeriosis, have raised the need for reliable and rapid detection of the pathogen. A simple, automated method was developed for the detection of Listeria organisms in foods. It consists of a 6-h pre-enrichment step followed by overnight incubation in selective broth at 35 degrees C. Changes in light transmittance in the selective broth are registered continuously by an optical sensor of the BioSys instrument (MicroSys, Ann Arbor, MI), and recorded in the computer. Esculin hydrolysis by listeriae results in black coloration of the media that causes a sharp drop in light transmittance, whereas negative samples remain colorless. Confirmation of L. monocytogenes is carried out only on esculin-positive samples and is completed within 6 h. Detection of 10-50 cells of Listeria inoculated into 25 g of food was confirmed in shell eggs, milk and ground beef. Naturally contaminated raw and ready-to-eat foods were further screened to validate the procedure.     

Automated measurements of antilisterial activities of lactate and diacetate in ready-to-eat meat

Standard procedures to enumerate Listeria organisms rely on plating food samples on selective agar media. The procedures are labor-intensive, and because of the limited sensitivity, pre-enrichment step is required for the detection of low numbers of the pathogen. In the present study, an automated rapid optic procedure and the standard procedure were used to determine the behavior of the pathogen in ready-to-eat (RTE) meat and to test the effect of antilisterial agents. Listeria monocytogenes strain Scott A or a six-strain mixture of Listeria was studied using lactate (2.5%), diacetate (0.2%) and their combination in beef bologna and in sterile beef emulsion. Samples stored for up to 60 days at 5 and 10 degrees C were tested at time intervals during storage. Using the plate count method, each of the salts caused a delay in growth of the pathogen, and the salt combination was most effective causing listeriostatic effects and decline in growth of the pathogen at 5 degrees C. High negative correlation (r), ranging from 0.92 to 0.99, was obtained between the detection time (DT) recorded by the optic procedure (BioSys instrument) and cell numbers determined by the plate count procedure. The rapid (< 24 h) optic procedure was reliable in assessing the efficacy of antimicrobials and in rapid detection of low levels of listeriae that are undetectable by direct plating procedure.     

Detection and identification ofListeria monocytogenes from milk and cheese by a single-step PCR

Primers ofiap gene were used as a target to develop a PCR technique for detectingListeria monocytogenes in milk and cheese. The PCR technique gives good results in the detection ofListeria monocytogenes either in artificially or naturally contaminated foodstuffs and has a high sensitivity and specificity. Application of this rapid diagnostic tool could provide further information about the spread ofL. monocytogenes in milk and cheese.     

Evaluation of a new chromogenic agar for the detection of Listeria in food

AIM: Rapid identification of Listeria in food is important in protecting consumers from infection. The development of chromogenic media such as agar Listeria according to Ottaviani and Agosti (ALOA) has allowed more rapid detection of Listeria monocytogenes, with presumptive identification of this pathogenic species after only 24 h of incubation. The aim of this study was to evaluate Oxoid chromogenic Listeria agar (OCLA) in comparison with ALOA and a traditional, nonchromogenic medium, Oxford agar. METHODS AND RESULTS: Media were compared using pure cultures, spiked food samples and naturally contaminated samples. Whilst development of typical colony morphology took 48 h on Oxford agar, Listeria spp. were frequently detected after 24 h of incubation on OCLA and ALOA. There was no significant difference in recovery between the two chromogenic media. CONCLUSIONS: Results indicate that OCLA gives equivalent recovery of Listeria spp. compared with ALOA. Whilst L. monocytogenes was frequently detected after 24 h of incubation, a 48-h incubation time was necessary to ensure detection of both L. monocytogenes and other Listeria spp. SIGNIFICANCE AND IMPACT OF THE STUDY: This study has shown that a commercially available chromogenic medium other than ALOA is appropriate for use in the international standard method. The commercial availability of more than one medium will facilitate the more widespread use of the method, thus increasing confidence in the ability to detect L. monocytogenes in food in the presence of other Listeria spp.     

RAPID DETECTION OF LISTERIA MONOCYTOGENES IN GROUND TURKEY BY IMMUNOMAGNETIC SEPARATION AND POLYMERASE CHAIN REACTION

The aim of this study was to determine the prevalence of Listeria monocytogenes in packaged fresh ground turkey in Turkey using immunomagnetic separation (IMS) as a selective enrichment step in method and polymerase chain reaction (PCR). A total of 180 ground turkey samples were collected during a 1-year period. Thirty-two (17.7%) of the samples contained L. monocytogenes, 24 (13.3%) contained Listeria innocua, 7 (3.8%) had Listeria ivanovii and 5 (2.7%) had Listeria seeligeri by means of IMS-based cultivation method. A PCR assay was performed, based on hlyA gene-specific primers. In all L. monocytogenes isolates, hlyA gene was confirmed, indicating that the correlation between IMS-based cultivation and PCR methods was 100%. The results suggest that the prevalence of L. monocytogenes in ground turkey is relatively high in Turkey and that ground turkey should be produced under appropriate hygienic and technological conditions for the prevention of public health hazards.

PRACTICAL APPLICATIONS

Using fast and reliable methods to detect and identify foodborne pathogenic bacteria, including Listeria monocytogenes , is important to detect the risk of contaminated product and protect public health. In some ways it is time-consuming to isolate and identify the pathogenic microorganisms from food products using conventional techniques. Different methods or techniques can be used both for redounding the isolation chance and to gain time for this purpose. Immunomagnetic separation (IMS) and polymerase chain reaction (PCR) techniques are effective and rapid methods for separation, detection and confirmation of Listeria spp. from foods. In this study rapid, specific and sensitive IMS method was used to determine the prevalence of L. monocytogenes in fresh ground turkey and PCR technique was used for the verification of the L. monocytogenes isolates.     

Detection of Listeria monocytogenes in Italian-style soft cheeses

AIMS: A rapid detection system specific for Listeria monocytogenes and based on the polymerase chain reaction (PCR) was developed. METHODS AND RESULTS: Primers annealing to the coding region of the actA gene, critically involved in virulence and capable of discrimination between two different alleles naturally occurring in L. monocytogenes, have been utilized. The procedure was applied to recover L. monocytogenes cells in artificially contaminated fresh Italian soft cheeses (mozzarella, crescenza and ricotta). Low levels of L. monocytogenes were detected in mozzarella and crescenza homogenates (0.04-0.4 and 4 CFU g(-1), respectively) whereas in ricotta the detection limit was higher (40 CFU g(-1)). CONCLUSIONS: This PCR-based assay is highly specific as primers used recognize the DNA from different L. monocytogenes strains of clinical and food origin, while no amplification products result with any other Listeria spp. strains. SIGNIFICANCE AND IMPACT OF THE STUDY: This study highlighted a low-cost and rapid procedure that can be appropriated for the detection in real time of low L. monocytogenes levels in soft cheese.     

Specific detection of cytopathogenic Listeria monocytogenes using a two-step method of immunoseparation and cytotoxicity analysis

The development of rapid methods for detection of viable Listeria monocytogenes is crucial to prevent listeriosis and product recalls. While immunomagnetic separation has been used for isolating Listeria spp., lack of specificity and pathogenicity determination render this method unsatisfactory. A two-step method using Protein A agarose beads (Immunobeads) coated with a more specific antibody, monoclonal antibody (MAb)-C11E9 for L. monocytogenes was developed. Immunobeads were allowed to capture Listeria cells from a variety of samples and tested for cytopathogenic action on a murine hybridoma B-lymphocyte, Ped-2E9 cell line by Trypan blue staining, and by an alkaline phosphatase (AP)-based cytotoxicity assay. The two-step method was used to test uninoculated hotdogs, bologna, and raw beef, chicken, and pork samples, following selective enrichment in half-Fraser broth. Pure culture studies proved the assay to be specific for L. monocytogenes, while a similar assay with Dynal Anti-Listeria immunomagnetic beads was positive for L. monocytogenes, L. ivanovii, and L. seeligeri. Detection and confirmation of cytopathogenicity of Listeria cells from food samples after 24-h selective enrichment were completed in 2-4 h. Isolates were further analyzed by the CAMP test for hemolytic activity and RiboPrinter for genomic patterns. Using immunoseparation and cytotoxicity as a two-step rapid method, viable L. monocytogenes could be isolated, detected, and confirmed as cytopathogenic in 28 h or less.     

DETECTION OF LISTERIA IN FOOD AND ENVIRONMENTAL SAMPLES BY IMMUNOMAGNETIC BEAD CAPTURE AND BY CULTURAL METHODS

Detection of Listeria by capture on antibody-coated magnetic beads has been shown to decrease test time and improve sensitivity, relative to cultural methods, in a study of spiked environmental samples (Mitchell et al. 1993). In this study, immunomagnetic capture was compared to standard cultural methods for detection of Listeria in a broad range of spiked and naturally contaminated food and environmental samples. Immunomagnetic capture was at least as sensitive as cultural methods for detection of Listeria in seafood, meats, dairy foods, and environmental samples. It was possible to determine the number of Listeria present in a sample, because immunomagnetic capture was carried out directly from the sample, without enrichment. These quantitative results were produced within 24 h, while cultural methods required 6–14 days to produce a qualitative result. Immunomagnetic capture was thus more rapid and as sensitive as standard cultural methods for detection of Listeria in the food and environmental samples tested.     

Evaluation of the MicroFoss system for the detection of Listeria species in environmental samples

The MicroFoss system was evaluated for its ability to detect Listeria species in environmental samples. The sensitivity and specificity of the MicroFoss were determined in relation to a standard culture method for Listeria detection. The sensitivities of both the MicroFoss and standard culture methods were similar (88.4%-MicroFoss, 90.7%-Culture) based on the total number of positive results obtained by both methods. The MicroFoss system detected Listeria spp. in 12 samples, which were not detected by culture, and the culture method detected Listeria spp. in 15 samples, which were not detected by the MicroFoss method. This was likely due to uneven distribution of low levels of Listeria organisms in the split sponge samples used to assess the performance of these test methods. The specificity value determined for the MicroFoss system was 92.7%. The majority of microbes causing false positive results in the MicroFoss system were Bacillus species, which were readily distinguishable from Listeria species by a simple Gram stain and morphological features. Listeria monocytogenes (89.4%-MicroFoss, 88.0%-Culture) and Listeria innocua (8.8%-MicroFoss, 7.7%-Culture) were the most common isolates of Listeria detected by the two test methods, with L. monocytogenes being the most predominant isolate detected. The highly comparable results and rapid nature of the MicroFoss system demonstrate its effectiveness as a detection system for species of Listeria in environmental samples. The fact that the sensitivity of the MicroFoss system was similar to that of the culture method and the Listeria results were obtained within 48 h of testing, support the use of the MicroFoss as an alternative rapid method for screening large numbers of environmental samples for Listeria spp.     

RAPID DETECTION OF SALMONELLA TYPHIMURIUM IN FOOD SAMPLES USING A BIENZYME ELECTROCHEMICAL BIOSENSOR WITH FLOW INJECTION

A bienzyme (tyrosinase and horseradish peroxidase) electrochemical biosensor was developed for detection of Salmonella typhimurium, and evaluated for application in a flow injection system coupled with immunomagnetic separation for food samples. Parameters for immunomagnetic separation, enzymatic reaction, flow injection and electrochemical detection were determined using pure culture samples. The selectivity was tested in the presence of Listeria monocytogenes, Campylobacter jejuni and E. coli 0157:H7. The results showed a linear relationship for logarithmic values between peak current ratio and the cell number of S. typhimurium in the range of 10³ 10⁵ cfu/mL, with R²= 0.99. The detection limit of this method was 1.09 × 10³ cfu/mL for S. typhimurium and the detection time was 2.5 h. Samples of chicken carcass wash water and ground beef were used to evaluate the biosensor. The results demonstrated that this biosensor has a potential for rapid detection of different pathogens in various food samples.     

Further Evaluation of a Rapid Immunofluorescence Technique for Detecting Salmonellae in Meat and Poultry

A rapid 18–24 h immunofluorescence technique detected 14 of 15 positive samples in tests on 706 routine samples, which included 656 home produced raw beef samples. The rapid technique also recorded 49 false positive results, i.e. samples which proved negative in subsequent cultural tests. The immunofluorescence technique could be used as a presumptive screening test aimed at the rapid detection of negative samples. In this way salmonella free raw materials should usually be cleared for production within 1 day of sampling.     

Identification and enumeration of Listeria monocytogenes by nonradioactive DNA probe colony hybridization.

A plasmid containing the cloned listeriolysin gene of Listeria monocytogenes was used as a probe to identify Listeria strains by DNA colony hybridization. The probe DNA was labeled with horseradish peroxidase in the presence of glutaraldehyde. After the hybridization and wash procedures, the hybrid molecules were detected by luminescence, which resulted from the oxidation of luminol by a horseradish peroxidase-hydrogen peroxide-coupled reaction. Of the 150 Listeria strains and 16 non-Listeria strains examined, the probe hybridized only with L. monocytogenes. The technique was also used to enumerate L. monocytogenes in artificially contaminated foods.     

Development and evaluation of a 24 well microtitre plate method for isolation of Listeria spp. or Listeria monocytogenes from foods

A rapid and simple method (24M) using 24 well microtitre plates was developed to determine the presence of Listeria monocytogenes or Listeria spp. in food samples. The 24M was composed of two 24 well microtitre plates connected with a yellow tip. The 24M was evaluated with pathogen cocktails and ground beef samples and compared with the conventional method for presumptive identification of Listeria spp. Only food-borne pathogen cocktails and ground beef samples containing L. monocytogenes or Listeria spp. showed a positive reaction in 24M after 24 h incubation at 35 degrees C. Test results were the same with the conventional method and the 24M method and showed high efficiency for recovery of Listeria spp. from foods. This new, convenient and economical method can isolate Listeria spp. simultaneously from 24 different food samples.     

Detection and identification of Listeria monocytogenes in cooked sausage products and in milk by in vitro amplification of haemolysin gene fragments

Recent outbreaks of listeriosis have emphasized the urgent need for rapid and reliable detection methods for Listeria spp., especially in food. Haemolysin production is a major factor in the pathogenesis of listeriosis and the polymerase chain reaction (PCR) was used to amplify two specific DNA fragments of the alpha- and the beta-haemolysin genes. The amplification system specifically recognized L. monocytogenes strains. The detection limit determined with pure cultures was 10 bacteria when estimated with alpha-haemolysin primers. In the analysis of 50 samples of cooked sausage products, bacterial colonies suspected to be Listeria spp. were isolated by conventional methods from six samples. PCR analysis identified three of six as L. monocytogenes. Subsequent serotyping showed perfect agreement with the PCR results. Since enrichment is the most time consuming step in conventional methods a PCR procedure which allows the direct detection of L. monocytogenes in milk was developed. Pasteurized milk was artificially contaminated with various levels of L. monocytogenes. The detection limit was determined to be 10 bacteria/10 ml milk and direct detection and identification of L. monocytogenes took less than two working days. These results show that this haemolysin gene amplification system is very rapid and reliable and therefore avoids cumbersome and lengthy cultivation steps.     

PCR detection of Listeria monocytogenes: a study of multiple factors affecting sensitivity

AIMS: To test, under comparable conditions, several parameters affecting sensitivity of PCR detection in order to establish a PCR procedure suitable for the routine detection of Listeria monocytogenes in food. METHODS AND RESULTS: Beef samples artificially inoculated were used to determine sensitivity of PCR detection under different parameters. As few as 1 CFU g(-1) were detected by DNA extraction using a DNeasy Tissue Kit (Qiagen GmhH, Hilden, Germany) of 1 ml aliquot and PCR amplification with primers directed to the hlyA gene. This PCR protocol was applied in 60 naturally contaminated foods, comparing two enrichment procedures with the traditional culture method. The highest number of positives was recorded by PCR following a 24-h pre-enrichment step at 30 degrees C and a 24-h enrichment step at 37 degrees C. Afterwards, it was applied in 217 naturally contaminated foods and 56 of them tested positive for L. monocytogenes in which only 17 tested positive using the culture method. CONCLUSIONS: The PCR procedure described has proved to be a rapid and sensitive method suitable for the routine analysis of different types of food. SIGNIFICANCE AND IMPACT OF THE STUDY: The method proposed for the detection of L. monocytogenes, has been validated in naturally contaminated food and is suitable to implement in the food industry.     

Rapid molecular identification of Listeria species by use of real-time PCR and high-resolution melting analysis

Identification of Listeria species via a molecular method is critical for food safety and clinical diagnosis. In this study, an assay integrating real-time quantitative PCR (Q-PCR) with high-resolution melting (HRM) curve analysis was developed and assessed for rapid identification of six Listeria species. The ssrA gene, which encodes a transfer-messenger RNA (tmRNA) is conserved and common to all bacterial phyla, contains a variable domain in Listeria spp. Therefore, Q-PCR and a HRM profile were applied to characterize this gene. Fifty-three Listeria species and 45 non-Listeria species were detected using one primer set, with an accuracy of 100% in reference to conventional methods. There was a 93.3% correction rate to 30 artificially contaminated samples. Thus, Q-PCR with melting profiling analysis proved able to identify Listeria species accurately. Consequently, this study demonstrates that the assay we developed is a functional tool for rapidly identifying six Listeria species, and has the potential for discriminating novel species food safety and epidemiological research.