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A bacteriophage cocktail delivered in feed significantly reduced Salmonella colonization in challenged broiler chickens

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posted on 2023-10-27, 11:06 authored by AM Thanki, S Hooton, N Whenham, MG Salter, MR Bedford, HVM O'Neill, MRJ Clokie

Nontyphoidal Salmonella spp. are a leading cause of human gastrointestinal infections and are commonly transmitted via the consumption of contaminated meat. To limit the spread of Salmonella and other food-borne pathogens in the food chain, bacteriophage (phage) therapy could be used during rearing or pre-harvest stages of animal production. This study was conducted to determine if a phage cocktail delivered in feed is capable of reducing Salmonella colonization in experimentally challenged chickens and to determine the optimal phage dose. A total of 672 broilers were divided into six treatment groups T1 (no phage diet and unchallenged); T2 (phage diet 106 PFU/day); T3 (challenged group); T4 (phage diet 105 PFU/day and challenged); T5 (phage diet 106 PFU/day and challenged); and T6 (phage diet 107 PFU/day and challenged). The liquid phage cocktail was added to mash diet with ad libitum access available throughout the study. By day 42 (the concluding day of the study), no Salmonella was detected in faecal samples collected from group T4. Salmonella was isolated from a small number of pens in groups T5 (3/16) and T6 (2/16) at ∼4 × 102 CFU/g. In comparison, Salmonella was isolated from 7/16 pens in T3 at ∼3 × 104 CFU/g. Phage treatment at all three doses had a positive impact on growth performance in challenged birds with increased weight gains in comparison to challenged birds with no phage diet. We showed delivering phages via feed was effective at reducing Salmonella colonization in chickens and our study highlights phages offer a promising tool to target bacterial infections in poultry.

Funding

Using bacteriophage to control Salmonella in pigs

Biotechnology and Biological Sciences Research Council

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History

Author affiliation

Department of Genetics and Genome Biology, University of Leicester

Version

  • VoR (Version of Record)

Published in

Emerging Microbes and Infections

Volume

12

Issue

1

Pagination

2217947

Publisher

Informa UK Limited

issn

2222-1751

eissn

2222-1751

Copyright date

2023

Available date

2023-10-27

Spatial coverage

United States

Language

eng

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