The isolation of <i>Escherichia coli</i> from a poultry packing station and an abattoir

Shooter, R. A.; Cooke, E. M.; O'Farrell, S; Bettelheim, K. A.; Chandler, Mary E.; Bushrod, Frances M.

doi:10.1017/s0022172400024086

Cited by 30 publications

(7 citation statements)

References 3 publications

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“…This is consistent with contamination of animal carcasses with the host's fecal flora during slaughter and processing and with use of antimicrobial agents in food-animal production [13,14]. In contrast, produce and other miscellaneous food items (including cheeses, salami, delicatessen items, turkey franks, and pastry products) were comparatively devoid of E. coli.…”

Section: Discussionsupporting

confidence: 68%

Antimicrobial‐Resistant and Extraintestinal PathogenicEscherichia coliin Retail Foods

Johnson¹,

Kuskowski²,

Smith³

et al. 2005

J INFECT DIS

218

174

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Section: Discussionsupporting

confidence: 68%

Antimicrobial‐Resistant and Extraintestinal PathogenicEscherichia coliin Retail Foods

Johnson¹,

Kuskowski²,

Smith³

et al. 2005

J INFECT DIS

218

174

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“…Between 29 % and 63 % of the swabs examined yielded at least one non-typable isolate and in all three surveys there were a few swabs in which all isolates were non-typable. Shooter et al (1974) concluded that non-typables probably comprise O -serogroups as yet undefined, since 13 different H antigens were found among 509 isolates untypable by O-grouping sera. Non-typable and rough strains have been differentiated using phages (Budde, Nimmich & Naumann, 1978) while biotype and resistance pattern has been used to define non-typable E. coli (NTEC) strains .…”

Section: Serotypingmentioning

confidence: 99%

“…One of the problems associated with serotyping is that some isolates will be either non-typable or autoagglutinable (rough) and if the proportion happens to be large the value of the method is necessarily limited. Shooter et al (1974) serotyped 798 E. coli isolates from abattoirs with 150 0-antisera and found 509 (64 00) non-typable. This compared to only 2 (0-1 00) of 1580 human isolates.…”

Section: Serotypingmentioning

confidence: 99%

The sub-specific differentiation ofEscherichia coliwith particular reference to ecological studies in young animals including man

Hinton

1985

J. Hyg.

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It is possible to differentiate isolates of Escherichia coli using a number of techniques including the determination of the serotype, biotype and phage type and the profiles for resistance to antibacterial agents and toxic chemicals, intracellular enzymes, outer membrane proteins and plasmids and the production of enterotoxin and colicines. These methods have been used principally for the study of pathogenic E. coli and plasmid-mediated drug resistance. However they can also be used successfully for ecological purposes and the application of several of these techniques for the study of the ecology of E. coli in healthy young animals including man is described.

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“…Retail poultry products are routinely heavily contaminated with avian fecal E. coli (40,43). Such E. coli, which can be antibiotic resistant (including to FQs) (14), widely contaminates kitchen surfaces during meal preparation, is not readily removed from these surfaces by standard cleaning procedures, and can subsequently be isolated from the feces of persons preparing the meals (10,30).…”

mentioning

confidence: 99%

Isolation and Molecular Characterization of Nalidixic Acid-Resistant Extraintestinal Pathogenic Escherichia coli from Retail Chicken Products

Johnson¹,

Murray²,

Gajewski³

et al. 2003

Antimicrob Agents Chemother

318

300

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Fluoroquinolone use in poultry production may select for resistant Escherichia coli that can be transmitted to humans. To define the prevalence and virulence potential of poultry-associated, quinolone-resistant E. coli in the United States, 169 retail chicken products from the Minneapolis-St. Paul area (1999 to 2000) were screened for nalidixic acid (Nal)-resistant E. coli. Sixty-two (37%) products yielded Nal-resistant E. coli. From 55 products that yielded both Nal-resistant and susceptible E. coli, two isolates (one resistant, one susceptible) per sample were further characterized. Twenty-three (21%) of the 110 E. coli isolates (13 resistant, 10 susceptible) satisfied criteria for extraintestinal pathogenic E. coli (ExPEC), i.e., exhibited >2 of pap (P fimbriae), sfa/foc (S/F1C fimbriae), afa/dra (Dr binding adhesins), iutA (aerobactin receptor), and kpsMT II (group 2 capsule synthesis). Compared with other isolates, ExPEC isolates more often derived from virulence-associated E. coli phylogenetic groups B2 or D (74% versus 32%; P < 0.001) and exhibited more ExPEC-associated virulence markers (median, 10.0 versus 4.0; P < 0.001). In contrast, the Nal-resistant and -susceptible populations were indistinguishable according to all characteristics analyzed, including pulsed-field gel electrophoresis profiles. These findings indicate that Nal-resistant E. coli is prevalent in retail poultry products and that a substantial minority of such strains represent potential human pathogens. The similarity of the Nal-resistant and -susceptible populations suggests that they derive from the same source population, presumably the avian fecal flora, with Nal resistance emerging by spontaneous mutation as a result of fluoroquinolone exposure.

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The isolation of Escherichia coli from a poultry packing station and an abattoir

Cited by 30 publications

References 3 publications

Antimicrobial‐Resistant and Extraintestinal PathogenicEscherichia coliin Retail Foods

Antimicrobial‐Resistant and Extraintestinal PathogenicEscherichia coliin Retail Foods

The sub-specific differentiation ofEscherichia coliwith particular reference to ecological studies in young animals including man

Isolation and Molecular Characterization of Nalidixic Acid-Resistant Extraintestinal Pathogenic Escherichia coli from Retail Chicken Products

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