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Detection and quantification of the top-seven Shiga toxin-producing Escherichia coli serogroups in feces and on hides of feedlot cattle and whole genome sequence-based analysis of O103 serogroupNoll, Lance January 1900 (has links)
Doctor of Philosophy / Department of Diagnostic Medicine/Pathobiology / Tiruvoor G. Nagaraja / Cattle are a reservoir for major Shiga toxin-producing Escherichia coli (STEC), which includes STEC O157 and the top six non-O157 serogroups (STEC-6; O26, O45, O103, O111, O121, O145). Collectively known as the STEC-7, these organisms are harbored in the hindgut and shed in the feces of cattle, which can contaminate hides. The de-hiding step during beef cattle processing can introduce fecal contaminants from the hide onto the carcass surface, creating the potential for contaminated beef products. The STEC-7 have been declared by the USDA-Food Safety and Inspection Service as adulterants in ground beef and non-intact beef products, and are monitored during beef cattle processing. However, many of the culture- and PCR-based tests for detection and/or quantification of the STEC, particularly of the STEC-6, are not established or require improvement and also virulence characteristics of STEC strains from cattle have not been fully analyzed. Therefore, the following studies were conducted: 1. Immunomagnetic separation (IMS)-based culture-method for detection of STEC-6 in cattle feces was developed and compared to a PCR-based method; 2. Detection sensitivity of pooled vs. individual IMS beads for isolation STEC-6 from cattle feces was evaluated; 3. Real-time PCR assay, based on the clustered regularly interspaced short palindromic repeat sequence polymorphisms (CRISPR), was developed and validated for serotype-specific detection and quantification of STEC O157:H7 in cattle feces; 4. Virulence gene profiles of bovine enterohemorrhagic (EHEC), enteropathogenic (EPEC) and putative non-pathotype E. coli O103 strains were examined with whole genome sequence (WGS)-based comparative analysis; 5. Prevalence and concentration of STEC-7 of fed-beef, cull beef and cull dairy cattle were determined. The culture and PCR methods detected all six serogroups in samples negative by the other method. Based on noninferiority tests, detection with pooled IMS beads was not inferior to detection with individual beads. Detection limits of the CRISPR-based qPCR assay for cattle feces spiked with pure cultures were 2.1 x 10³ and 2.3 x 10⁰ colony-forming units/g before and after enrichment, respectively. WGS-based analysis of E. coli O103 strains revealed key differences in the virulomes and mobilomes of EHEC, EPEC, and putative non-pathotype strains. The prevalence study revealed that a significantly higher (P < 0.01) proportion of hide samples from fed beef cattle (4.8%) were positive for STEC O157:H7, compared to samples from cull beef (1.6%) or cull dairy (0.2%); the majority of quantifiable STEC O157:H7 from each cattle type was at concentrations between 3 to 4 log CFU/100 cm². These data contribute to a knowledge gap on prevalence and concentration of STEC-7 and surrogate bacteria on cattle hides and carcasses, respectively. Furthermore, the development and refinement of culture- and PCR-based screening assays may lead to increased surveillance of major STEC serogroups, especially if the potential of WGS-based comparative genomics in identifying novel gene targets can be harnessed.
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Development of a targeted proteomic assay for rapid detection of Shiga-like toxins 1 and 2 in Shiga toxin-producing Escherichia coliScharikow, Leanne Gene 05 January 2017 (has links)
Shiga toxin-producing Escherichia coli (STEC) are extensive contributors to foodborne illness, causing renal and central nervous system damage due to production of Shiga toxin (Stx). Rapid Stx detection is important to distinguish STEC from other enteric pathogens. Current detection techniques are time consuming, expensive, and lack sensitivity. We have developed and evaluated a novel targeted mass spectrometry-based assay for detection of Stx using parallel reaction monitoring (PRM). The PRM assay used 11 target tryptic peptides and was validated using STEC and non-STEC bacterial cultures. Stx was detected in 56 of 62 STEC isolates and did not detect Stx in any of the 29 non-STEC isolates. The PRM assay successfully determined the Stx2 subtype in 32 of 46 Stx2-positive isolates. By applying a targeted proteomics assay, we were able to simultaneously detect Stx toxins 1 and 2 and subtype Stx2 into six toxin subgroups in Stx2-positive isolates. / February 2017
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Evaluation of chromosomally-integrated luxCDABE and plasmid-borne GFP markers for the study of localization and shedding of STEC O91:H21 in calvesHong, Yingying 01 May 2011 (has links)
Shiga toxin-producing Escherichia coli (STEC) has been recognized as an important foodborne pathogen. Of this group, O91 is one of the common serogroups frequently isolated from patients and food in some countries, with O91:H21 being previously implicated in hemolytic uremic syndrome (HUS). Cattle are principle reservoirs for STEC, and studies examining STEC shedding in cattle often include experimental inoculation of strains of interest using antibiotic resistance markers for identifiable recovery. However, indigenous fecal microbes exhibiting similar resistance patterns can confound such studies. Such was the case in a study by our group when attempting to characterize shedding patterns of O91:H21 in calves, leading us to seek other, more effective, markers. Among our strategies was the development of a chromosomally integrated bioluminescence marker via transposon mutagenesis using a luxCDABE cassette from Photorhabdus luminescens and a plasmid borne GFP marker via transformation of the pGFP vector. The luxCDABE marker was inserted on host chromosome at a site that was 27 nucleotides before the stop codon of gene yihL and confirmed to have little impact on important virulence genes and growth rate with a very high stability. In contrast, plasmid borne GFP marker showed poor stability without the application of appropriate antibiotic selection pressure. For calves receiving luxCDABE-marked O91:H21, the fecal counts of the organismranged from 1.2 x 10 3 to 1.3 x 10 4CFU/g at two days post inoculation and decreased to 5.8 to 8.7 x 10 2 CFU/g or undetectable level after two weeks.Intestinal contents sampled from various positions at day 14 post inoculation indicated that cecum and descending colon may be the primary localization sites of this O91:H21 strain. Compared to antibiotic resistance markers, the use of bioluminescence markers does not require the restricted pre-inoculation screening of animals. The enumeration of luxCDABE-marked O91:H21 from feces and intestinal contents was easily accomplished and confirmed reliable by M-PCR analysis under the presence of indigenous bacteria which cannot be eliminated by antibiotic-supplemented selective plates. Therefore, the chromosomal integrated luxCDABE marker may be a better model for the study of STEC colonization and shedding in cattle.
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Colonization of cattle by non-O157 Shiga Toxin-producing <i>Escherichia coli</i> serotypesAsper, David Jose 29 September 2009
Shiga toxin-producing <i>E. coli</i> (STEC) is an important food- and water-borne pathogen of humans, causing Hemorrhagic Colitis and Haemolytic Uremic Syndrome. Colonization of both cattle and human hosts is mediated through the action of effector molecules secreted via a type III secretion system (T3SS), which forms attaching and effacing lesions (A/E). The necessary effectors which form A/E by manipulation of host signalling and actin nucleation are present on a pathogenicity island called the Locus of Enterocyte Effacement (LEE).<p>
It has been reported that vaccination of cattle with Type III-secreted proteins (T3SPs) from STEC O157 resulted in decreased shedding. In order to extend this to non-O157 STEC serotypes, we examined the serological cross-reactivity of T3SPs of serotypes O26:H11, O103:H2, O111:NM and O157:H7. Groups of cattle were vaccinated with T3SPs produced from each of the serotypes and the magnitude and specificity of the responses were measured resulting in limited cross reactivity. Overall, results suggest that vaccination of cattle with T3SPs as a means of reducing the risk of STEC transmission to humans will induce protection that is serotype specific.<p>
To pursue the possibility of a cross-protective vaccine, we investigated the protective properties of a chimeric Tir protein against STEC serotypes. Several studies have reported that Tir is highly immunogenic and capable of producing high antibody titers. Potter and colleagues also demonstrated that the vaccination of cattle with ∆tir STEC O157 strain did not protect as well as the wildtype strain. We constructed thirty-mer peptides to the entire STEC O157 Tir protein, as well as to the intimin binding domain of the Tir protein from STEC serotype O26, O103 and O111. Using sera raised against STEC O157 and non-O157 T3SPs, we identified a number of immunogenic peptides containing epitopes unique to a particular serotype. Two different chimeric Tir proteins were constructed containing the STEC O157 Tir protein fused with six STEC non-O157 peptides with or without the Leukotoxin produced by <i>Mannheimia haemolytica</i>. However, the vaccination of mice with the chimeric protein did not protect against challenge with STEC O157 or STEC O111. These results suggest that to achieve cross protection against STEC serotypes using a recombinant protein vaccine, other immunogenic and protective antigens must also be included.<p>
In order to identify other immunogenic and cross-protective antigens we cloned and expressed the genes coding for 66 effectors and purified each as histidine-tagged proteins. These included 37 LEE-encoded proteins and 29 non-LEE effectors. The serological response against each protein was measured by Western blot analysis and an enzyme-linked immunosorbent assay (ELISA) using sera from rabbits immunized with T3SPs from four STEC serotypes, experimentally infected cattle and human sera from 6 HUS patients. A total of 20 proteins were recognized by at least one of the STEC T3SP- vaccinated rabbits using Western blots. Sera from experimentally infected cattle and HUS patients were tested using an ELISA against each of the proteins. Tir, EspB, EspD, EspA and NleA were recognized by the majority of the samples tested. Overall, proteins such as Tir, EspB, EspD, NleA and EspA were highly immunogenic for both vaccinated and naturally infected subjects.<p>
Based on the above results, two different mixtures of secreted proteins (5 proteins and 9 proteins) were used to vaccinate mice and test the level of shedding following challenge with STEC O157. Overall, the cocktail vaccine containing 9 immunogenic effectors including Tir, EspB, EspD, NleA and EspA was capable of reducing shedding as effectively as the current STEC T3SPs vaccine, Econiche®.
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Colonization of cattle by non-O157 Shiga Toxin-producing <i>Escherichia coli</i> serotypesAsper, David Jose 29 September 2009 (has links)
Shiga toxin-producing <i>E. coli</i> (STEC) is an important food- and water-borne pathogen of humans, causing Hemorrhagic Colitis and Haemolytic Uremic Syndrome. Colonization of both cattle and human hosts is mediated through the action of effector molecules secreted via a type III secretion system (T3SS), which forms attaching and effacing lesions (A/E). The necessary effectors which form A/E by manipulation of host signalling and actin nucleation are present on a pathogenicity island called the Locus of Enterocyte Effacement (LEE).<p>
It has been reported that vaccination of cattle with Type III-secreted proteins (T3SPs) from STEC O157 resulted in decreased shedding. In order to extend this to non-O157 STEC serotypes, we examined the serological cross-reactivity of T3SPs of serotypes O26:H11, O103:H2, O111:NM and O157:H7. Groups of cattle were vaccinated with T3SPs produced from each of the serotypes and the magnitude and specificity of the responses were measured resulting in limited cross reactivity. Overall, results suggest that vaccination of cattle with T3SPs as a means of reducing the risk of STEC transmission to humans will induce protection that is serotype specific.<p>
To pursue the possibility of a cross-protective vaccine, we investigated the protective properties of a chimeric Tir protein against STEC serotypes. Several studies have reported that Tir is highly immunogenic and capable of producing high antibody titers. Potter and colleagues also demonstrated that the vaccination of cattle with ∆tir STEC O157 strain did not protect as well as the wildtype strain. We constructed thirty-mer peptides to the entire STEC O157 Tir protein, as well as to the intimin binding domain of the Tir protein from STEC serotype O26, O103 and O111. Using sera raised against STEC O157 and non-O157 T3SPs, we identified a number of immunogenic peptides containing epitopes unique to a particular serotype. Two different chimeric Tir proteins were constructed containing the STEC O157 Tir protein fused with six STEC non-O157 peptides with or without the Leukotoxin produced by <i>Mannheimia haemolytica</i>. However, the vaccination of mice with the chimeric protein did not protect against challenge with STEC O157 or STEC O111. These results suggest that to achieve cross protection against STEC serotypes using a recombinant protein vaccine, other immunogenic and protective antigens must also be included.<p>
In order to identify other immunogenic and cross-protective antigens we cloned and expressed the genes coding for 66 effectors and purified each as histidine-tagged proteins. These included 37 LEE-encoded proteins and 29 non-LEE effectors. The serological response against each protein was measured by Western blot analysis and an enzyme-linked immunosorbent assay (ELISA) using sera from rabbits immunized with T3SPs from four STEC serotypes, experimentally infected cattle and human sera from 6 HUS patients. A total of 20 proteins were recognized by at least one of the STEC T3SP- vaccinated rabbits using Western blots. Sera from experimentally infected cattle and HUS patients were tested using an ELISA against each of the proteins. Tir, EspB, EspD, EspA and NleA were recognized by the majority of the samples tested. Overall, proteins such as Tir, EspB, EspD, NleA and EspA were highly immunogenic for both vaccinated and naturally infected subjects.<p>
Based on the above results, two different mixtures of secreted proteins (5 proteins and 9 proteins) were used to vaccinate mice and test the level of shedding following challenge with STEC O157. Overall, the cocktail vaccine containing 9 immunogenic effectors including Tir, EspB, EspD, NleA and EspA was capable of reducing shedding as effectively as the current STEC T3SPs vaccine, Econiche®.
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Shiga Toxin-producing Escherichia Coli (STEC) : development of an immuno-detection method and a direct-fed microbial to control their prevalence in cattle / Shiga toxin-producing Escherichia coli (STEC) : développement d'une méthode d'immuno-détection et d'un "direct-fed microbial" pour contrôler leur prévalence chez les bovinsLarose, Delphine 08 April 2016 (has links)
Les Escherichia coli enterohémorragiques (EHEC) sont responsables de maladies graves comme la colitehémorragique (CH), le syndrome hémolytique et urémique (SHU) ou le purpura thrombotiquethrombocytopénique (PTT). Les infections humaines sont principalement dues à la consommationd’aliments contaminés, en particulier la viande d’origine bovine, le lait ou les légumes. Le principalréservoir naturel des EHEC est le tractus gastro-intestinal (TGI) des bovins. Les fèces de bovins sont, parconséquent, responsables de la contamination de plusieurs types d’aliments mais également de ladissémination environnementale de ces bactéries pathogènes. En relation avec cette problématique, lesdeux objectifs de ce projet étaient (i) de développer une nouvelle méthode d’immuno-capture pouraméliorer l’isolement des principaux sérogroupes de EHEC impliqués dans les infections humaines; et (ii)de développer un nouveau DFM (direct fed microbial) utilisable chez les bovins pour diminuer laprévalence des EHEC chez les animaux. Cette thèse a permis le développement d’une méthoded’immuno-capture basée sur l’utilisation d’une microplaque à 96 puits, coatée avec des anticorpsspécifiquement dirigés contre E. coli O157 ou d’autres sérogroupes. Cette méthode, appelée immunomicroplatecapture (IMC) est efficace et facile d’utilisation pour l’isolement de souches d’E. coli O157 ;O26 ; O103 et O111 dans les produits alimentaires. L’IMC pourrait être une alternative à l’utilisation desbilles immuno-magnétiques qui sont classiquement utilisées pour la détection des EHEC dans lesproduits alimentaires, mais qui représentent une technique longue et fastidieuse lors de l’analysesimultanée de nombreux échantillons. La seconde partie de cette thèse a permis de sélectionner 5souches de bactéries lactiques qui présentent une activité antagoniste vis-à-vis d’E.coli O157 et d’autressérogroupes in vitro. La résistance de ces souches aux conditions du tractus gastro-intestinal (conditionsacides, présence de sels biliaires, présence de jus de rumen) a été évaluée in vitro. Leur innocuité a étévérifiée chez des souris Balb-C par l’administration de chacune des souches incorporées à la nourriture(109 cfu/g). Enfin, la lyophilisation des souches n’a pas affecté leur activité antagoniste in vitro. Lesrésultats obtenus dans les différents tests in vitro suggèrent que les 5 souches pourraientpotentiellement être utilisées comme DFM chez les bovins pour diminuer la colonisation de leur TGI parles EHEC et par conséquent diminuer le risque de contamination des aliments et le risque dedissémination environnementale. / Enterohemorrhagic E. coli (EHEC) are responsible for important diseases such as hemorrhagic colitis,hemolytic and uremic syndrome or thrombotic thrombocytopenic purpura. Human infections occurprincipally by consumption of contaminated food particularly beef meat, milk or vegetables. The mainnaturally reservoir of EHEC is the gastro-intestinal tract of cattle. Cattle feces are therefore responsiblefor contamination of various types of food but also environment dissemination of the pathogenicbacteria. Related to this problematic, the two objectives of this project were (i) to develop a newimmuno-capture method to improve the isolation of the main serogroups of EHEC involved in humaninfections in food; and (ii) to develop a new direct fed microbial usable in cattle to decrease prevalenceof EHEC in animals. This thesis allowed the development of an immuno-capture method based on theuse of 96-well microplates coated with specific antibody directed against E. coli O157 and otherserogroups. This method, called immuno-microplate capture (IMC) was efficient and user-friendly forthe isolation of E. coli O157; O26; O103 and O111 in foods. This could be an alternative to the use ofimmuno-magnetic beads which are currently used for the detection of EHEC in foods, but are timeconsumingand labor intensive when large number of samples is analyzed simultaneously. The secondpart of this thesis allowed the selection of 5 lactic acid bacteria strains which presented highantagonistic activity against E. coli O157 and other serogroups in vitro. Resistance of these strains togastro-intestinal conditions (acidic conditions, presence of bile salts and rumen fluid) was evaluated invitro. The safety of the 5 strains was checked in Balb-C mice by administration of each strain mixed infeed at 109 cfu/g. Finally, freeze-drying did not affect the antagonistic activity of the 5 strains, suggesteda possible large scale use of these strains. According to the various results obtained in vitro, the 5 strainscould potentially be used as DFM in cattle to decrease colonization of their gastro-intestinal tract byEHEC and consequently decrease the risk of food and environment contaminations.
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Characterizing differences in Shiga toxin-producing Escherichia coli (stec) attachment to pre-rigor and chilled beef carcass surfacesSchwan, Carla Luísa January 1900 (has links)
Master of Science / Food Science Institute / Randall K. Phebus / The USDA declared seven STEC serotypes to be adulterants in raw, non-intact beef products due to their severe health implications. STEC contamination of carcasses is most likely to occur during hide removal. This study evaluated the efficiency of a mixed STEC-7 inoculum to attach to raw beef carcasses (predominantly lean muscle and adipose tissue), and compared the efficacy of 4.5% lactic acid (LA) to a water (W) spray to reduce STEC populations. Four carcass contamination scenarios, representing potential points whereby STEC could come into contact with raw beef surfaces during slaughter operations, were evaluated: (A) pre-rigor surface STEC inoculated (ca. 7 log cfu/cm[superscript]2), 30-min ambient temperature attachment, spray with LA or W; (B) pre-rigor inoculated, 24-h chilled attachment, spray; (C) tissue chilled 24 h, inoculated, 30-min attachment, spray; and (D) tissue chilled 24 h, rewarmed to 30°C, inoculated, 30-min attachment, spray. Predominantly lean muscle and adipose tissue were collected from four fed cattle immediately after harvest and assigned to the four scenarios for STEC inoculation, followed by a post-inoculation water (control) or LA spray. Tissue excision samples were collected pre- and post-treatment and analyzed to enumerate STEC-7 populations. Data were collected in a completely randomized design and analyzed using a mixed-model ANOVA. Pairwise comparisons of treatment means were made at α = 0.05 with p-values adjusted using Tukey-Kramer. Initial STEC attachment levels to predominantly lean muscle and adipose tissues were not significantly different across all scenarios. Scenarios C and D showed greater STEC attachment compared to scenarios B and A. The LA spray reduced STEC levels more effectively than water across all scenarios. A significant treatment by tissue type interaction was observed for STEC reductions. A greater STEC reduction was observed for adipose tissue than for predominantly lean muscle when lactic acid spray was applied. A significant treatment by
scenario interaction was observed for STEC reductions. Scenarios A and B presented greater log reductions (1.77 ± 0.27 and 1.85 ± 0.25 log CFU/cm[superscript]2, respectively) than scenario C (1.04 ± 0.10 Log CFU/cm[superscript]2). LA spray presented the same level of effectiveness when applied to pre-rigor warm tissues and chilled tissues for reducing STEC. Greater post-LA spray reductions were observed when STECs were inoculated onto pre-rigor meat surfaces and submitted to a 24 h chill cycle, suggesting that cold storage temperatures (~2 °C) may stress or injure the STEC cells prior to subsequent antimicrobial spray applications to chilled surfaces. For laboratory studies, consideration must be given to when inocula are applied to tissue surfaces to accurately determine and/or compare the effectiveness of antimicrobial treatments. These findings provide insight to beef processors and researchers regarding inoculation protocols for comparative validation studies, and potential impacts on microbiological results from application of antimicrobial interventions at different points during raw beef processing.
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COMPARISON OF THE GROWTH OF SHIGA TOXIN-PRODUCING ESCHERICHIA COLI (STEC) ON DIFFERENT MEDIAWang, Gaochan 26 June 2012 (has links)
No description available.
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Avaliação da exposição do consumidor à Listeria monocytogenes, Salmonella spp., Campylobacter spp. e Escherichia coli produtora de toxina de Shiga em produtos cárneos refrigerados comercializados no município de São Paulo / Assessment of consumer exposure to Listeria monocytogenes, Salmonella spp., Campylobacter spp. and Shiga toxin-producing Escherichia coli in refrigerated meat products at retail in São Paulo municipalityCosta, Christiane Asturiano Ristori 30 March 2010 (has links)
As Enfermidades Transmitidas por Alimentos representam um crescente e relevante problema de saúde pública. Além do prejuízo social, a contaminação de alimentos com microrganismos patogênicos gera um enorme prejuízo econômico. Técnicas de Análise de Risco permitem mensurar de forma mais adequada o impacto dos microrganismos contaminantes de alimentos na saúde da população. Uma Análise de Riscos, associada a uma combinação patógeno-alimento, envolve três passos: avaliação do risco, gestão do risco e comunicação do risco. Uma das etapas da avaliação do risco é a avaliação da exposição, baseada em dados sobre freqüência e nível de contaminação dos alimentos pelo patógeno avaliado no alimento em questão, o nível atingido pelo patógeno no momento do consumo e os padrões de consumo. Os produtos cárneos são os principais alimentos responsáveis pela veiculação de patógenos ao homem e os microrganismos de maior relevância nestes produtos são Listeria monocytogenes, Salmonella spp., Campylobacter spp. e Escherichia coli produtora de toxina de Shiga. O objetivo do presente estudo foi levantar informações qualitativas e quantitativas desses quatro patógenos em produtos cárneos (salsicha bovina, lingüiça suína, carne bovina moída e coxa de frango) comercializados no município de São Paulo, de forma a contribuir com dados para futuras avaliações de risco em relação a estes microrganismos nestes produtos. Das 552 amostras de produtos cárneos analisadas, L. monocytogenes foi o patógeno isolado com maior freqüência, sendo detectado em 48,7% das amostras, seguido por Campylobacter spp. em 6,0% e Salmonella spp. em 5,8%. E. coli produtora de toxina de Shiga não foi detectada em nenhuma das amostras estudadas. Listeria monocytogenes foi detectada em todos os tipos de produtos cárneos estudados, com freqüências mais elevadas nas amostras de carne bovina moída (59,4%), seguido de coxa de frango (58,0%), lingüiça suína (39,8%) e salsicha bovina (37,7%). Na maioria das amostras (94,4%), as contagens de L. monocytogenes foram inferiores a 102 UFC/g. As cepas de L. monocytogenes apresentaram ampla distribuição, sendo detectados os quatro grupos de sorotipos: 28,7% pertenceram ao Grupo 1 (sorotipos 1/2a e 3a), 21,0% ao Grupo 2 (sorotipos 1/2c e 3c), 17,0% ao Grupo 3 (sorotipos 1/2b, 3b e 7) e 13,8% ao Grupo 4 (sorotipos 4b, 4d e 4e). Salmonella spp. foi detectada em 32 amostras, sendo 20 (14,5%) de lingüiça e 12 (10,6%) de coxa de frango. As contagens foram baixas, variando de 3,0 a 9,3x10 NMP/g e os sorovares mais freqüentemente isolados foram S. Typhimurium (28,1%), S. Enteritidis (12,5%), S. Derby (12,5%) e S. I 4,[5],12:i:- (12,5%). Campylobacter spp. foi detectado em 33 amostras (6,0%), sendo 27 de coxa de frango (19,6%) e seis amostras de carne moída (4,3%). A presença de L. monocytogenes, Salmonella spp. e Campylobacter spp. nos produtos cárneos analisados representa um risco à saúde da população. O consumo destes produtos quando submetidos à cocção inadequada e/ou a contaminação cruzada com outros alimentos pode levar a ocorrência de Enfermidades Transmitidas por Alimentos. / Foodborne Diseases represent an increasingly important public health problem. Besides the social losses, contamination of food with pathogenic microorganisms generates an enormous economic damage. A more accurate measurement of the impact of microorganisms in food health can be achieved using Risk Analysis techniques. A risk analysis is composed by three elements: risk assessment, risk management and risk communication. One of the four steps of a risk assessment is the exposure assessment, based on data on frequency and level of contamination of a food by the pathogen under evaluation, levels of the pathogen in the food at the time of consumption and consumption patterns. Meat products are the main vehicles of pathogens to humans, where Listeria monocytogenes, Salmonella spp., Campylobacter spp. and Shiga toxin-producing Escherichia coli are the most relevant pathogens. The aim of this study was to obtain qualitative and quantitative information on these four pathogens in four types of meat products (beef sausage, pork sausage, ground beef and chicken leg) marketed in the city of Sao Paulo in order to contribute with data for future risk assessments for these microorganisms in these products. L. monocytogenes is the most frequent pathogen in the 552 samples of meat products analyzed, being detected in 48.7% of the samples, followed by Campylobacter spp. 6.0% and Salmonella spp. 5.8%. Shiga toxin-producing E. coli was not detected in any sample. L. monocytogenes was detected in all types of meat products, with highest frequency in ground beef (59.4%), followed by chicken leg (58.0%), pork sausage (39.8%) and beef sausage (37.7%). In most samples (94.4%), the counts of L. monocytogenes were below 102 CFU/g. L. monocytogenes strains were widely distributed in the four groups of serotypes: 28.7% belonged to Group 1 (serotypes 1/2a and 3a), 21% to Group 2 (serotypes 1/2c and 3c), 17% to Group 3 (serotypes 1/2b, 3b and 7) and 13.8% to Group 4 (serotypes 4b, 4d and 4e). Salmonella spp. was detected in 32 samples, being 20 (14.5%) of pork sausage and 12 (10.6%) of chicken leg. The counts were low, ranging from 3.0 to 9.3 x 10 MPN/g and the most frequent serovars were S. Typhimurium (28.1%), S. Enteritidis (12.5%), S. Derby (12.5%) and S. I 4, [5], 12: i: - (12.5%). Campylobacter spp. was detected in 33 samples (6.0%), being 27 of chicken leg (19.6%) and six samples of ground beef (4.3%). The presence of L. monocytogenes, Salmonella spp. and Campylobacter spp. in the tested meat products represent a risk to health. The consumption of inadequately cooked products and/or subjected to cross-contamination with other foods may lead to occurrence of foodborne diseases.
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Avaliação da exposição do consumidor à Listeria monocytogenes, Salmonella spp., Campylobacter spp. e Escherichia coli produtora de toxina de Shiga em produtos cárneos refrigerados comercializados no município de São Paulo / Assessment of consumer exposure to Listeria monocytogenes, Salmonella spp., Campylobacter spp. and Shiga toxin-producing Escherichia coli in refrigerated meat products at retail in São Paulo municipalityChristiane Asturiano Ristori Costa 30 March 2010 (has links)
As Enfermidades Transmitidas por Alimentos representam um crescente e relevante problema de saúde pública. Além do prejuízo social, a contaminação de alimentos com microrganismos patogênicos gera um enorme prejuízo econômico. Técnicas de Análise de Risco permitem mensurar de forma mais adequada o impacto dos microrganismos contaminantes de alimentos na saúde da população. Uma Análise de Riscos, associada a uma combinação patógeno-alimento, envolve três passos: avaliação do risco, gestão do risco e comunicação do risco. Uma das etapas da avaliação do risco é a avaliação da exposição, baseada em dados sobre freqüência e nível de contaminação dos alimentos pelo patógeno avaliado no alimento em questão, o nível atingido pelo patógeno no momento do consumo e os padrões de consumo. Os produtos cárneos são os principais alimentos responsáveis pela veiculação de patógenos ao homem e os microrganismos de maior relevância nestes produtos são Listeria monocytogenes, Salmonella spp., Campylobacter spp. e Escherichia coli produtora de toxina de Shiga. O objetivo do presente estudo foi levantar informações qualitativas e quantitativas desses quatro patógenos em produtos cárneos (salsicha bovina, lingüiça suína, carne bovina moída e coxa de frango) comercializados no município de São Paulo, de forma a contribuir com dados para futuras avaliações de risco em relação a estes microrganismos nestes produtos. Das 552 amostras de produtos cárneos analisadas, L. monocytogenes foi o patógeno isolado com maior freqüência, sendo detectado em 48,7% das amostras, seguido por Campylobacter spp. em 6,0% e Salmonella spp. em 5,8%. E. coli produtora de toxina de Shiga não foi detectada em nenhuma das amostras estudadas. Listeria monocytogenes foi detectada em todos os tipos de produtos cárneos estudados, com freqüências mais elevadas nas amostras de carne bovina moída (59,4%), seguido de coxa de frango (58,0%), lingüiça suína (39,8%) e salsicha bovina (37,7%). Na maioria das amostras (94,4%), as contagens de L. monocytogenes foram inferiores a 102 UFC/g. As cepas de L. monocytogenes apresentaram ampla distribuição, sendo detectados os quatro grupos de sorotipos: 28,7% pertenceram ao Grupo 1 (sorotipos 1/2a e 3a), 21,0% ao Grupo 2 (sorotipos 1/2c e 3c), 17,0% ao Grupo 3 (sorotipos 1/2b, 3b e 7) e 13,8% ao Grupo 4 (sorotipos 4b, 4d e 4e). Salmonella spp. foi detectada em 32 amostras, sendo 20 (14,5%) de lingüiça e 12 (10,6%) de coxa de frango. As contagens foram baixas, variando de 3,0 a 9,3x10 NMP/g e os sorovares mais freqüentemente isolados foram S. Typhimurium (28,1%), S. Enteritidis (12,5%), S. Derby (12,5%) e S. I 4,[5],12:i:- (12,5%). Campylobacter spp. foi detectado em 33 amostras (6,0%), sendo 27 de coxa de frango (19,6%) e seis amostras de carne moída (4,3%). A presença de L. monocytogenes, Salmonella spp. e Campylobacter spp. nos produtos cárneos analisados representa um risco à saúde da população. O consumo destes produtos quando submetidos à cocção inadequada e/ou a contaminação cruzada com outros alimentos pode levar a ocorrência de Enfermidades Transmitidas por Alimentos. / Foodborne Diseases represent an increasingly important public health problem. Besides the social losses, contamination of food with pathogenic microorganisms generates an enormous economic damage. A more accurate measurement of the impact of microorganisms in food health can be achieved using Risk Analysis techniques. A risk analysis is composed by three elements: risk assessment, risk management and risk communication. One of the four steps of a risk assessment is the exposure assessment, based on data on frequency and level of contamination of a food by the pathogen under evaluation, levels of the pathogen in the food at the time of consumption and consumption patterns. Meat products are the main vehicles of pathogens to humans, where Listeria monocytogenes, Salmonella spp., Campylobacter spp. and Shiga toxin-producing Escherichia coli are the most relevant pathogens. The aim of this study was to obtain qualitative and quantitative information on these four pathogens in four types of meat products (beef sausage, pork sausage, ground beef and chicken leg) marketed in the city of Sao Paulo in order to contribute with data for future risk assessments for these microorganisms in these products. L. monocytogenes is the most frequent pathogen in the 552 samples of meat products analyzed, being detected in 48.7% of the samples, followed by Campylobacter spp. 6.0% and Salmonella spp. 5.8%. Shiga toxin-producing E. coli was not detected in any sample. L. monocytogenes was detected in all types of meat products, with highest frequency in ground beef (59.4%), followed by chicken leg (58.0%), pork sausage (39.8%) and beef sausage (37.7%). In most samples (94.4%), the counts of L. monocytogenes were below 102 CFU/g. L. monocytogenes strains were widely distributed in the four groups of serotypes: 28.7% belonged to Group 1 (serotypes 1/2a and 3a), 21% to Group 2 (serotypes 1/2c and 3c), 17% to Group 3 (serotypes 1/2b, 3b and 7) and 13.8% to Group 4 (serotypes 4b, 4d and 4e). Salmonella spp. was detected in 32 samples, being 20 (14.5%) of pork sausage and 12 (10.6%) of chicken leg. The counts were low, ranging from 3.0 to 9.3 x 10 MPN/g and the most frequent serovars were S. Typhimurium (28.1%), S. Enteritidis (12.5%), S. Derby (12.5%) and S. I 4, [5], 12: i: - (12.5%). Campylobacter spp. was detected in 33 samples (6.0%), being 27 of chicken leg (19.6%) and six samples of ground beef (4.3%). The presence of L. monocytogenes, Salmonella spp. and Campylobacter spp. in the tested meat products represent a risk to health. The consumption of inadequately cooked products and/or subjected to cross-contamination with other foods may lead to occurrence of foodborne diseases.
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