A metagenomic approach to One Health surveillance of antimicrobial resistance in a UK veterinary centre
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Introduction
There are currently no standardised guidelines for genomic surveillance of One Health (OH) antimicrobial resistance (AMR). This project aimed to utilise metagenomics to identify AMR genes present in a companion animal hospital and compare these with phenotypic results from bacterial isolates from clinical specimens from the same veterinary hospital.
Methods
Samples were collected from sites around a primary companion animal veterinary hospital in North London. Metagenomic DNA was sequenced using Oxford Nanopore Technologies (ONT) MinION. The sequencing data were analysed for AMR genes, plasmids and clinically relevant pathogen species. These data were compared to phenotypic speciation and antibiotic susceptibility tests (ASTs) of bacteria isolates from patients.
Results
The most common resistance genes identified were aph (n=101 times genes were isolated across 48 metagenomic samples), sul (84), bla CARB (63), tet (58) and bla TEM (46). In clinical isolates, a high proportion of phenotypic resistance to the β-lactams was identified. Rooms with the greatest mean number of resistance genes identified per swab site were the medical preparation room, dog ward and surgical preparation room. Twenty-four Gram-positive and four enterobacterial plasmids were identified. Sequencing reads matched with 14/22 (64%) of the phenotypically isolated bacterial species.
Discussion
Metagenomics identified AMR genes, plasmids and species of relevance to human and animal medicine. Communal animal-handling areas harboured more AMR genes than areas animals did not frequent. When considering infection prevention and control (IPC) measures, adherence to, and frequency of, cleaning schedules, alongside potentially more comprehensive disinfection of animal-handling areas may reduce the number of potentially harmful bacteria present.
PubMed “veterinary” or “companion” AND “AMR” or “resistan*” NOT (Review[Publication Type]) (2018-2023)
“veterinary” or “companion” AND “AMR” or “resist*” AND “sequencing” or “metagenomic*” “veterinary” or “companion” AND “AMR” or “resistan*” NOT (Review[Publication Type]) (2018-2023)
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