Distribution of extended-spectrum β-lactamase producing genes in an integrated poultry-fish farming system in Bogor, Indonesia.

Background And Aim: The excessive use of antimicrobials in livestock farming leads to the emergence and dissemination of antimicrobial-resistant organisms. This study aimed to detect extended-spectrum β-lactamase (ESBL)-producing genes in integrated poultry-fish farms in Bogor, Indonesia.

Materials And Methods: A total of 256 samples were collected from six poultry-fish farms. One hundred and seventy-five chicken cloaca swabs, 60 fish skin swabs, six pond water samples, and 15 farmer's hand swabs. ESBL-producing was confirmed through double-disk diffusion. The specific primers and probe genes for quantitative polymerase chain reaction detection of ESBL-producing targeted TEM, CTX-M, SHV, and OXA-48 genes.

Results: Among the 256 samples tested, 145 (56.6%) were positive for , and 67.6% (98/145) were identified as ESBL-producing . The most ESBL-producing isolates were obtained from chicken cloaca (78.3%, 72/92), followed by pond water (66.7%, 4/6), fish skin (47.6%, 20/42), and farmer's hand swabs (40%, 2/5). About 100% of the isolates carried the genes TEM and CTX-M, whereas 17.3% and 24.5% carried SHV and OXA-48, respectively.

Conclusion: ESBL-producing genes were investigated in chicken cloaca, fish, pond water, and farmers' hands within an interconnected poultry-fish farming operation. The ESBL-producing in chickens can transfer resistant genes to aquatic environments. The transfer could harm other aquatic species and food chains, potentially threatening human health.