A real-time PCR assay for the detection of Campylobacter jejuni in foods after enrichment culture

A real-time PCR assay was developed for the quantitative detection of Campylobacter jejuni in foods after enrichment culture. The specificity of the assay for C. jejuni was demonstrated with a diverse range of Campylobacter species, related organisms, and unrelated genera. The assay had a linear range of quantification over six orders of magnitude, and the limit of detection was approximately 12 genome equivalents. The assay was used to detect C. jejuni in both naturally and artificially contaminated food samples. Ninety-seven foods, including raw poultry meat, offal, raw shellfish, and milk samples, were enriched in blood-free Campylobacter enrichment broth at 37 degrees C for 24 h, followed by 42 degrees C for 24 h. Enrichment cultures were subcultured to Campylobacter charcoal-cefoperazone-deoxycholate blood-free selective agar, and presumptive Campylobacter isolates were identified with phenotypic methods. DNA was extracted from enrichment cultures with a rapid lysis method and used as the template in the real-time PCR assay. A total of 66 samples were positive for C. jejuni by either method, with 57 samples positive for C. jejuni by subculture to selective agar medium and 63 samples positive in the real-time PCR assay. The results of both methods were concordant for 84 of the samples. The total time taken for detection from enrichment broth samples was approximately 3 h for the real-time PCR assay, with the results being available immediately at the end of PCR cycling, compared to 48 h for subculture to selective agar. This assay significantly reduces the total time taken for the detection of C. jejuni in foods and is an important model for other food-borne pathogens.     

Influence of the natural microbial flora on the acid tolerance response of Listeria monocytogenes in a model system of fresh meat decontamination fluids

Depending on its composition and metabolic activity, the natural flora that may be established in a meat plant environment can affect the survival, growth, and acid tolerance response (ATR) of bacterial pathogens present in the same niche. To investigate this hypothesis, changes in populations and ATR of inoculated (10(5) CFU/ml) Listeria monocytogenes were evaluated at 35 degrees C in water (10 or 85 degrees C) or acidic (2% lactic or acetic acid) washings of beef with or without prior filter sterilization. The model experiments were performed at 35 degrees C rather than lower (8.0 log CFU/ml) by day 1. The pH of inoculated water washings decreased or increased depending on absence or presence of natural flora, respectively. These microbial and pH changes modulated the ATR of L. monocytogenes at 35 degrees C. In filter-sterilized water washings, inoculated L. monocytogenes increased its ATR by at least 1.0 log CFU/ml from days 1 to 8, while in unfiltered water washings the pathogen was acid tolerant at day 1 (0.3 to 1.4 log CFU/ml reduction) and became acid sensitive (3.0 to >5.0 log CFU/ml reduction) at day 8. These results suggest that the predominant gram-negative flora of an aerobic fresh meat plant environment may sensitize bacterial pathogens to acid.     

Isolation of Campylobacter spp. from pigeon feces by a combined enrichment-filtration technique

A technique combining enrichment in Preston enrichment broth and direct filtration onto chocolate agar was used to isolate Campylobacter species from pigeon feces. Campylobacter jejuni was isolated from 106 of 200 samples tested; 105 strains were isolated by enrichment-filtration, and 84 strains were isolated by direct plating. Most of the strains grew after 48 h at 37 degrees C.     

Isolation of Campylobacter spp. from pigeon feces by a combined enrichment-filtration technique.

A technique combining enrichment in Preston enrichment broth and direct filtration onto chocolate agar was used to isolate Campylobacter species from pigeon feces. Campylobacter jejuni was isolated from 106 of 200 samples tested; 105 strains were isolated by enrichment-filtration, and 84 strains were isolated by direct plating. Most of the strains grew after 48 h at 37 degrees C.     

Isolation and enumeration of Campylobacter jejuni from poultry products by a selective enrichment method

A direct selective enrichment procedure was developed for the isolation of Campylobacter jejuni from poultry products. The selective enrichment medium (ATB) consisted of (per liter) tryptose (20 g), yeast extract (2.5 g), sodium chloride (5 g), FBP supplement (ferrous sulfate [0.25 g], sodium metabisulfite [0.25 g], sodium pyruvate [0.25 g]), bicine (10 g), and agar (1 g). Hematin solution (6.25 ml; prepared by dissolving 0.032 g of bovine hemin in 10 ml of 0.15 N sodium hydroxide solution and autoclaving at 0.35 kg/cm2 for 30 min), rifampin (25 mg), cefsulodin (6.25 mg), and polymyxin B sulfate (20,000 IU) were added after the medium was sterilized. The pH was adjusted to 8.0. Samples were enriched in the above medium at 42 degrees C for 48 h under an atmosphere of 5% O2, 10% CO2, and 85% N2. Enrichment cultures were streaked on a plating medium composed of Brucella agar, hematin solution, FBP supplement, and the above antibiotics. Plates were incubated under the same conditions as above. Suspect colonies from the plates were confirmed to be C. jejuni by morphological examination, growth characteristics, and biochemical tests. The above method yielded 25 isolates of C. jejuni from 50 samples of retail cut-up chicken and chicken parts, whereas a more complex method involving filtration, centrifugation, selective enrichment under a flowing atmosphere, and membrane filtration yielded only 6 positives from the same samples. The new isolation procedure was particularly effective in isolating C. jejuni in the presence of large numbers of Pseudomonas aeruginosa.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation and enumeration of Campylobacter jejuni from poultry products by a selective enrichment method.

A direct selective enrichment procedure was developed for the isolation of Campylobacter jejuni from poultry products. The selective enrichment medium (ATB) consisted of (per liter) tryptose (20 g), yeast extract (2.5 g), sodium chloride (5 g), FBP supplement (ferrous sulfate [0.25 g], sodium metabisulfite [0.25 g], sodium pyruvate [0.25 g]), bicine (10 g), and agar (1 g). Hematin solution (6.25 ml; prepared by dissolving 0.032 g of bovine hemin in 10 ml of 0.15 N sodium hydroxide solution and autoclaving at 0.35 kg/cm2 for 30 min), rifampin (25 mg), cefsulodin (6.25 mg), and polymyxin B sulfate (20,000 IU) were added after the medium was sterilized. The pH was adjusted to 8.0. Samples were enriched in the above medium at 42 degrees C for 48 h under an atmosphere of 5% O2, 10% CO2, and 85% N2. Enrichment cultures were streaked on a plating medium composed of Brucella agar, hematin solution, FBP supplement, and the above antibiotics. Plates were incubated under the same conditions as above. Suspect colonies from the plates were confirmed to be C. jejuni by morphological examination, growth characteristics, and biochemical tests. The above method yielded 25 isolates of C. jejuni from 50 samples of retail cut-up chicken and chicken parts, whereas a more complex method involving filtration, centrifugation, selective enrichment under a flowing atmosphere, and membrane filtration yielded only 6 positives from the same samples. The new isolation procedure was particularly effective in isolating C. jejuni in the presence of large numbers of Pseudomonas aeruginosa.(ABSTRACT TRUNCATED AT 250 WORDS)     

Selected enrichment broths for recovery of Campylobacter jejuni from foods.

We attempted to shorten the required time for enrichment broth culture for the isolation of Campylobacter jejuni. Enrichment broths described by Doyle and Roman and Park and Stankiewicz and one developed during this study were compared for ability to isolate C. jejuni from raw chicken carcasses. Our medium was a modification of that of Doyle and Roman with the addition of filter-sterilized FBP (0.2% ferrous sulfate, 0.025% sodium metabisulfite, 0.05% sodium pyruvate), 0.1% sodium lauryl sulfate, and 0.075% agar. Initially, laboratory strains were employed in the development of this medium. Subsequently, an indigenous load of C. jejuni obtained from chickens was used to compare media. Isolation rate comparisons were as follows: direct plating, 40%; Doyle and Roman broth, 45% at 7 h and 61% at 16 h; Park and Stankiewicz broth, 53% at 7 h and 60% at 16 h; our broth, 48% at 7 h and 50% at 16 h. In addition to having the highest isolation rate, the enrichment broth of Doyle and Roman showed greatest selectivity. Our inoculation method of indigenous bacteria provided a controlled means for comparison of isolation procedures.     

Prevalence, antigenic specificity, and bactericidal activity of poultry anti-Campylobacter maternal antibodies

Poultry are considered the major reservoir for Campylobacter jejuni, a leading bacterial cause of human food-borne diarrhea. To understand the ecology of C. jejuni and develop strategies to control C. jejuni infection in the animal reservoir, we initiated studies to examine the potential role of anti-Campylobacter maternal antibodies in protecting young broiler chickens from infection by C. jejuni. Using an enzyme-linked immunosorbent assay (ELISA), the prevalence of anti-C. jejuni antibodies in breeder chickens, egg yolks, and broilers from multiple flocks of different farms were examined. High levels of antibodies to the organism were detected in serum samples of breeder chickens and in egg yolk contents. To determine the dynamics of anti-Campylobacter maternal antibody transferred from yolks to hatchlings, serum samples collected from five broiler flocks at weekly intervals from 1 to 28 or 42 days of age were also examined by ELISA. Sera from the 1-day and 7-day-old chicks showed high titers of antibodies to C. jejuni. Thereafter, antibody titers decreased substantially and were not detected during the third and fourth weeks of age. The disappearance of anti-Campylobacter maternal antibodies during 3 to 4 weeks of age coincides with the appearance of C. jejuni infections observed in many broiler chicken flocks. As shown by immunoblotting, the maternally derived antibodies recognized multiple membrane proteins of C. jejuni ranging from 19 to 107 kDa. Moreover, in vitro serum bactericidal assays showed that anti-Campylobacter maternal antibodies were active in antibody-dependent complement-mediated killing of C. jejuni. Together, these results highlight the widespread presence of functional anti-Campylobacter antibodies in the poultry production system and provide a strong rationale for further investigation of the potential role of anti-C. jejuni maternal antibodies in protecting young chickens from infection by C. jejuni.     

Survival of Campylobacter jejuni inoculated into ground beef.

Ground beef was inoculated with mixed cultures of Campylobacter jejuni, and the samples were subjected to various cooking and cold-storage temperatures. When samples were heated in an oven at either 190 or 218 degrees C, approximately 10(7) cells of C. jejuni per g were inactivated (less than 30 cells per g) in less than 10 min after the ground beef reached an internal temperature of 70 degrees C. When the samples were held at -15 degrees C over 14 days of storage, the numbers of C. jejuni declined by 3 log10. When inoculated samples were stored with an equal amount of Cary-Blair diluent at 4 degrees C, no changes in viability were observed over 14 days of storage. Twenty-five times as much C. jejuni was recovered from inoculated ground beef when either 10% glycerol or 10% dimethyl sulfoxide was added to an equal amount of ground beef before freezing as was recovered from peptone-diluted ground beef. Twice as much inoculated C. jejuni was recovered from ground beef plus Cary-Blair diluent as was recovered from ground beef plus peptone diluent.     

Efficacy of media and methods for detecting and enumerating Campylobacter jejuni in refrigerated chicken meat

A study was undertaken to compare several enrichment and direct isolation media for their suitability to detect and enumerate five strains of Campylobacter jejuni in refrigerated (5 degrees C) chicken meat. The influence of CO2 on survival at 5 degrees C was also investigated. Selective enrichment media evaluated included Preston broth (PB), selective semisolid brucella medium (SSBM), Campylobacter enrichment broth (CEB), VTP brucella-FBP broth (VTP), Rosef and Kapperud Campylobacter enrichment broth (RKCEB), and Doyle and Roman enrichment broth (DREB). Direct isolation agars included Campy brucella agar (CBAP), blood-free Campylobacter medium (BFCM) and modified Butzler agar (MBA). Comminuted chicken meat was inoculated with C. jejuni, sealed under atmospheric gas or CO2, and stored at 5 degrees C for up to 21 days. Viable population was determined by the most-probable-number technique (PB, SSBM, CEB, VTP, and RKCEB, followed by plating on CBAP, BFCM, and MBA), enrichment on DREB, followed by plating on CBAP, BFCM, and MBA, and direct isolation on CBAP, BFCM, and MBA. Without exception, direct plating of samples was superior to the most-probable-number technique for enumerating C. jejuni; MBA was inferior to CBAP and BFCM, and DREB performed at least as well as other enrichment media evaluated. Carbon dioxide afforded protection against death of three of the five strains of C. jejuni tested.     

Efficacy of media and methods for detecting and enumerating Campylobacter jejuni in refrigerated chicken meat.

A study was undertaken to compare several enrichment and direct isolation media for their suitability to detect and enumerate five strains of Campylobacter jejuni in refrigerated (5 degrees C) chicken meat. The influence of CO2 on survival at 5 degrees C was also investigated. Selective enrichment media evaluated included Preston broth (PB), selective semisolid brucella medium (SSBM), Campylobacter enrichment broth (CEB), VTP brucella-FBP broth (VTP), Rosef and Kapperud Campylobacter enrichment broth (RKCEB), and Doyle and Roman enrichment broth (DREB). Direct isolation agars included Campy brucella agar (CBAP), blood-free Campylobacter medium (BFCM) and modified Butzler agar (MBA). Comminuted chicken meat was inoculated with C. jejuni, sealed under atmospheric gas or CO2, and stored at 5 degrees C for up to 21 days. Viable population was determined by the most-probable-number technique (PB, SSBM, CEB, VTP, and RKCEB, followed by plating on CBAP, BFCM, and MBA), enrichment on DREB, followed by plating on CBAP, BFCM, and MBA, and direct isolation on CBAP, BFCM, and MBA. Without exception, direct plating of samples was superior to the most-probable-number technique for enumerating C. jejuni; MBA was inferior to CBAP and BFCM, and DREB performed at least as well as other enrichment media evaluated. Carbon dioxide afforded protection against death of three of the five strains of C. jejuni tested.     

Survival or growth of Escherichia coli O157:H7 in a model system of fresh meat decontamination runoff waste fluids and its resistance to subsequent lactic acid stress

A potential may exist for survival of and resistance development by Escherichia coli O157:H7 in environmental niches of meat plants applying carcass decontamination interventions. This study evaluated (i) survival or growth of acid-adapted and nonadapted E. coli O157:H7 strain ATCC 43895 in acetic acid (pH 3.6 +/- 0.1) or in water (pH 7.2 +/- 0.2) fresh beef decontamination runoff fluids (washings) stored at 4, 10, 15, or 25 degrees C and (ii) resistance of cells recovered from the washings after 2 or 7 days of storage to a subsequent lactic acid (pH 3.5) stress. Corresponding cultures in sterile saline or in heat-sterilized water washings were used as controls. In acetic acid washings, acid-adapted cultures survived better than nonadapted cultures, with survival being greatest at 4 degrees C and lowest at 25 degrees C. The pathogen survived without growth in water washings at 4 and 10 degrees C, while it grew by 0.8 to 2.7 log cycles at 15 and 25 degrees C, and more in the absence of natural flora. E. coli O157:H7 cells habituated without growth in water washings at 4 or 10 degrees C were the most sensitive to pH 3.5, while cells grown in water washings at 15 or 25 degrees C were relatively the most resistant, irrespective of previous acid adaptation. Resistance to pH 3.5 of E. coli O157:H7 cells habituated in acetic acid washings for 7 days increased in the order 15 degrees C > 10 degrees C > 4 degrees C, while at 25 degrees C cells died off. These results indicate that growth inhibition by storage at low temperatures may be more important than competition by natural flora in inducing acid sensitization of E. coli O157:H7 in fresh meat environments. At ambient temperatures in meat plants, E. coli O157:H7 may grow to restore acid resistance, unless acid interventions are applied to inhibit growth and minimize survival of the pathogen. Acid-habituated E. coli O157:H7 at 10 to 15 degrees C may maintain a higher acid resistance than when acid habituated at 4 degrees C. These responses should be evaluated with fresh meat and may be useful for the optimization of decontamination programs and postdecontamination conditions of meat handling.     

A novel method and simple apparatus for the detection of thermophilic Campylobacter spp. in chicken meat products

Conventional procedures for isolation of thermophilic Campylobacter spp. from chicken are complex, labor intensive, and time-consuming. The objective of this study was to create a novel Campylobacter culturing apparatus. A main concept of the device was based on the ability of Campylobacter to pass through a 0.45 microm pore size filter in viscous media. Preliminary study demonstrated that only viable Campylobacter moved through the membrane filter and could multiply in the enrichment culture. C. jejuni, C. coli, C. lari, and C. upsaliensis in the chicken samples were detected at cell concentrations as low as 10 cfu/g, after 24 h incubation at 42 degrees C. In total, 84 retail chicken samples were comparatively studied using both conventional method and apparatus. Sixteen samples (19.05%) were positive by the apparatus method; 14 (16.66%) of these positive samples contained C. coli and 2 (2.38%) contained C. jejuni. With the conventional method, 7 (8.33%) samples were positive 7 (8.33%) with C. coli. In conclusion, the apparatus detected more positive samples than did the conventional culture method.     

Detection and genotyping of Arcobacter and Campylobacter isolates from retail chicken samples by use of DNA oligonucleotide arrays

To explore the use of DNA microarrays for pathogen detection in food, we produced DNA oligonucleotide arrays to simultaneously determine the presence of Arcobacter and the presence of Campylobacter in retail chicken samples. Probes were selected that target housekeeping and virulence-associated genes in both Arcobacter butzleri and thermotolerant Campylobacter jejuni and Campylobacter coli. These microarrays showed a high level of probe specificity; the signal intensities detected for A. butzleri, C. coli, or C. jejuni probes were at least 10-fold higher than the background levels. Specific identification of A. butzleri, C. coli, and C. jejuni was achieved without the need for a PCR amplification step. By adapting an isolation method that employed membrane filtration and selective media, C. jejuni isolates were recovered from package liquid from whole chicken carcasses prior to enrichment. Increasing the time of enrichment resulted in the isolation of A. butzleri and increased the recovery of C. jejuni. C. jejuni isolates were further classified by using an additional subset of probes targeting the lipooligosaccharide (LOS) biosynthesis locus. Our results demonstrated that most of the C. jejuni isolates likely possess class B, C, or H LOS. Validation experiments demonstrated that the DNA microarray had a detection sensitivity threshold of approximately 10,000 C. jejuni cells. Interestingly, the use of C. jejuni sequence-specific primers to label genomic DNA improved the sensitivity of this DNA microarray for detection of C. jejuni in whole chicken carcass samples. C. jejuni was efficiently detected directly both in package liquid from whole chicken carcasses and in enrichment broths.     

Chicken juice, a food-based model system suitable to study survival of Campylobacter jejuni

AIMS: The purpose of this study was to develop a food-based model system that resembles the environment that Campylobacter jejuni experiences on raw poultry products and use this model system to investigate growth and survival of the bacterium. METHODS AND RESULTS: Chicken juice was collected from frozen chickens and subsequently cleared by centrifugation and subjected to sterile filtration. At low temperatures (5 and 10 degrees C) C. jejuni NCTC11168 remained viable in chicken juice for a remarkably longer period of time than in the reference medium BHI. When exposed to heat stress (48 degrees C) C. jejuni NCTC11168 also showed increased viability in chicken juice compared with the reference medium. Furthermore, agar plates made with chicken juice supported growth of four clinical isolates of C. jejuni and a C. jejuni strain obtained from chicken at both 37 and 42 degrees C. CONCLUSIONS: Our work shows that minimal processed and sterilized chicken juice is an ideal environment for survival of C. jejuni and that it is useful as a food-based model system. SIGNIFICANCE AND IMPACT OF THE STUDY: The developed model system may contribute to the understanding of C. jejuni viability on poultry products and can be instrumental in the development of alternative preservation strategies.     

Efficacy of some methods and media for detecting and enumerating Campylobacter jejuni in frozen chicken meat

Four of five strains of Campylobacter jejuni survived in chicken meat stored at -18 degrees C for 12 months. Direct plating of samples was superior to the most probable number technique for enumerating C. jejuni. Enrichment culture using the Doyle & Roman enrichment method resulted in the highest rates of detection. Packaging under an atmosphere of CO2 did not substantially influence survival.     

Detection of Campylobacter jejuni added to foods by using a combined selective enrichment and nucleic acid sequence-based amplification (NASBA).

An assay to detect Campylobacter jejuni in foods that uses a short selective enrichment culture, a simple and rapid isolation procedure, NASBA amplification of RNA, and a nonradioactive in solution hybridization was studied. The presence of high numbers of indigenous flora affected the sensitivity of the assay. However, detection of C. jejuni was possible up to a ratio of indigenous flora to C. jejuni of 10,000:1. Interference by food components was eliminated by centrifugation following the enrichment step. Fourteen food samples artificially inoculated with C. jejuni (1 to 1,000 CFU/10 g) were analyzed with the NASBA assay and the conventional culture method with Campylobacter charcoal differential agar (CCDA). A few false-negative results were obtained by both NASBA (1.42%) and CCDA (2.86%) isolation. Yet the use of enrichment culture and NASBA shortened the analysis time from 6 days to 26 h. The relative simplicity and rapidity of the NASBA assay make it an attractive alternative for detection of C. jejuni in food samples.     

Comparison of Four Enrichment Media in the Recovery of Campyloracter Jejuni

The effectiveness of 4 enrichment media for the recovery of low levels of inoculated cells of Campylobacter jejuni was evaluated. The media contained antibiotics or antibiotics and bile acids as selective compounds. Three of the media recovered most of the inoculated low numbers of 6 C. jejuni strains. In the 3 media the growth rate of 3 strains, indicated by the increase in the log number of cells during 24 h or 48 h incubation at 42 ° C, was about the same as in the control medium without selective compounds. The same 3 media also recovered a low number of Campylobacter cells from artificially contaminated raw milk or ground meat samples. The enrichment medium B containing 40 I.U. Colistin, 5 μg novobiocin, 2 mg Na-cholic acid and 50 mg cycloheximide per ml was inhibitory for most Campylobacter strains studied.     

Direct real-time PCR quantification of Campylobacter jejuni in chicken fecal and cecal samples by integrated cell concentration and DNA purification

Campylobacter jejuni is a major cause of diarrheal disease and food-borne gastroenteritis. The main reservoir of C. jejuni in poultry is the cecum, with an estimated content of 6 to 8 log10 CFU/g. If a flock is infected with C. jejuni, the majority of the birds in that flock will harbor the bacterium. Diagnostics at the flock level could thus be an important control point. The aim of the work presented here was to develop a complete quantitative PCR-based detection assay for C. jejuni obtained directly from cecal contents and fecal samples. We applied an approach in which the same paramagnetic beads were used both for cell isolation and for DNA purification. This integrated approach enabled both fully automated and quantitative sample preparation and a DNA extraction method. We developed a complete quantitative diagnostic assay through the combination of the sample preparation approach and real-time 5'-nuclease PCR. The assay was evaluated both by spiking the samples with C. jejuni and through the detection of C. jejuni in naturally colonized chickens. Detection limits between 2 and 25 CFU per PCR and a quantitative range of >4 log10 were obtained for spiked fecal and cecal samples. Thirty-one different poultry flocks were screened for naturally colonized chickens. A total of 262 (204 fecal and 58 cecal) samples were analyzed. Nineteen of the flocks were Campylobacter positive, whereas 12 were negative. Two of the flocks contained Campylobacter species other than C. jejuni. There was a large difference in the C. jejuni content, ranging from 4 to 8 log10 CFU/g of fecal or cecal material, for the different flocks tested. Some issues that have not yet promoted much attention are the prequantitative differences in the ability of C. jejuni to colonize poultry and the importance of these differences for causing human disease through food contamination. Understanding the colonization kinetics in poultry is therefore of great importance for controlling human infections by this bacterium.     

Detection of small numbers of Campylobacter jejuni and Campylobacter coli cells in environmental water, sewage, and food samples by a seminested PCR assay

A rapid and sensitive assay was developed for detection of small numbers of Campylobacter jejuni and Campylobacter coli cells in environmental water, sewage, and food samples. Water and sewage samples were filtered, and the filters were enriched overnight in a nonselective medium. The enrichment cultures were prepared for PCR by a rapid and simple procedure consisting of centrifugation, proteinase K treatment, and boiling. A seminested PCR based on specific amplification of the intergenic sequence between the two Campylobacter flagellin genes, flaA and flaB, was performed, and the PCR products were visualized by agarose gel electrophoresis. The assay allowed us to detect 3 to 15 CFU of C. jejuni per 100 ml in water samples containing a background flora consisting of up to 8, 700 heterotrophic organisms per ml and 10,000 CFU of coliform bacteria per 100 ml. Dilution of the enriched cultures 1:10 with sterile broth prior to the PCR was sometimes necessary to obtain positive results. The assay was also conducted with food samples analyzed with or without overnight enrichment. As few as 相似文献