Assessing the Prevalence of Salmonella enterica in Poultry Hatcheries by Using Hatched Eggshell Membranes

Salmonella enterica causes a number of significant poultry diseases and is also a major pathogen in humans. Most poultry infected by Salmonella become carriers; infection may also be fatal, depending on the particular serovar and the age of the bird at infection. Younger birds are more susceptible t...

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Bibliographic Details
Published in:Poultry science 2007-08, Vol.86 (8), p.1651-1655
Main Authors: Chao, M.R, Hsien, C.H, Yeh, C.M, Chou, S.J, Chu, C, Su, Y.C, Yu, C.Y
Format: Article
Language:English
Subjects:
animal age
Animal Husbandry
animal pathogenic bacteria
Animals
Carrier State
chickens
Chickens - microbiology
disease prevalence
disease resistance
ducks
Ducks - microbiology
Egg Shell - microbiology
food contamination
food microbiology
food pathogens
foodborne illness
geese
Geese - microbiology
hatcheries
microbial contamination
poultry diseases
Poultry Diseases - epidemiology
Poultry Diseases - microbiology
Prevalence
Salmonella
Salmonella enterica
Salmonella enterica - isolation & purification
Salmonella Infections, Animal - epidemiology
Salmonella Infections, Animal - microbiology
serotypes
species differences
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Summary:Salmonella enterica causes a number of significant poultry diseases and is also a major pathogen in humans. Most poultry infected by Salmonella become carriers; infection may also be fatal, depending on the particular serovar and the age of the bird at infection. Younger birds are more susceptible to infection by Salmonella, so it is critical that hatcheries monitor birds. We developed a method to use hatched eggshell membranes (HEM) to assess contamination by Salmonella in poultry hatching cabinets and to evaluate the prevalence of Salmonella in a goose hatchery and rearing farm. Comparison of the Salmonella isolation rate in hatching cabinets using 3 sampling methods showed that the highest Salmonella contamination was detected in HEM, and that these results differed significantly from those obtained from fluff samples and cabinet swab samples (P < 0.05). Analysis of HEM was also used to evaluate Salmonella contamination in goose, chicken, and duck hatcheries. The lowest Salmonella-positive rate was found for the chicken hatchery, followed by the goose and the duck hatcheries (P < 0.05). Six serogroups of Salmonella were detected in the 3 hatcheries: A, B, C1, C2, D, and E. The distribution of these serogroups differed among the hatcheries. Salmonella serogroup C1 was the major serogroup found in geese, compared with serogroup B in chickens and ducks. However, Salmonella Typhimurium was dominant in 1 goose hatchery and also in geese from this hatchery that had been transferred to a farm. Antibiotic susceptibility analysis showed that Salmonella Typhimurium strains isolated from the farm geese with diarrhea showed significantly higher resistance to doxycycline, colistin, sulfamethoxazole-trimethoprin, and cephalothin than those isolated from the hatchery (P < 0.05). Therefore, HEM as a detection target can be used to monitor Salmonella contamination in hatching cabinets and also be used to assess Salmonella prevalence in poultry hatcheries and rearing farms.
ISSN:0032-5791
1525-3171
DOI:10.1093/ps/86.8.1651