Antimicrobial resistance of avian pathogenic Escherichia coli isolated from broiler, layer, and breeder chickens

Bhattarai, Rebanta K.; Basnet, Hom B.; Dhakal, Ishwari P.; Devkota, Bhuminand

doi:10.14202/vetworld.2024.480-499

Vet World

2024

DOI: 10.14202/vetworld.2024.480-499

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Antimicrobial resistance of avian pathogenic Escherichia coli isolated from broiler, layer, and breeder chickens

Rebanta K. Bhattarai,

Hom B. Basnet,

Ishwari P. Dhakal

et al.

Abstract: Background and Aim: Antimicrobials are extensively used in poultry production for growth promotion as well as for the treatment and control of diseases, including avian pathogenic Escherichia coli (APEC). Poor selection, overuse, and misuse of antimicrobial agents may promote the emergence and dissemination of antimicrobial resistance (AMR) in APEC. This study aimed to assess antimicrobial susceptibility patterns and detect antibiotic resistance genes (ARGs) in APEC isolated from clinical cases of colibacillos… Show more

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2024

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Cited by 3 publications

References 83 publications

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Isolation and Characterization of a Novel Escherichia Bacteriophage with Potential to Control Multidrug-Resistant Avian Pathogenic Escherichia coli and Biofilms

Wintachai,

Thaion,

Clokie

et al. 2024

Antibiotics

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Background/Objectives: Avian pathogenic Escherichia coli (APEC) infection is a significant problem for the global chicken industry, as it decreases animal welfare and is associated with substantial economic losses. Traditionally, APEC infections have been controlled through the use of antibiotics, which has led to an increased prevalence of antibiotic-resistant E. coli. Therefore, developing alternative treatments for APEC infection is crucial. Methods: In this study, an Escherichia phage specific to multidrug-resistant (MDR) APEC, designated as phage vB_EcoP_PW8 (phage vECPW8), was isolated. The morphology, phage adsorption to host cells, one-step growth curve, thermal stability, pH stability, whole-genome sequencing, antibacterial ability, and antibiofilm efficacy of phage vECPW8 were evaluated. Results: The results demonstrated that phage vECPW8 has a Podoviridae morphology and is effective at lysing bacteria. Phage vECPW8 exhibited a high absorption rate to bacterial cells (more than 85% within 10 min) and had a latent period of 20 min, with a burst size of 143 plaque-forming units per cell. Additionally, phage vECPW8 showed good temperature and pH stability. The phage displayed strong antibacterial activity in vitro, and its efficacy in controlling bacteria was confirmed through scanning electron microscopy. Whole-genome sequencing revealed that the phage has a linear genome with 69,579 base pairs. The genome analysis supported the safety of the phage, as no toxin, virulence, or resistance-related genes were detected. Phage vECPW8 was identified as a novel lytic phage in the Gamaleyavirus genus and Schitoviridae family. The phage also demonstrated antibiofilm efficacy by reducing and preventing biofilm formation, as evidenced by biofilm biomass and bacterial cell viability measurements. Conclusions: These results indicate that phage vECPW8 is a promising candidate for the effective treatment of MDR APEC infections in poultry.

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Isolation and Characterization of a Novel Escherichia Bacteriophage with Potential to Control Multidrug-Resistant Avian Pathogenic Escherichia coli and Biofilms

Wintachai,

Thaion,

Clokie

et al. 2024

Antibiotics

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Quinolone and Tetracycline-Resistant Biofilm-Forming Escherichia coli Isolates from Slovak Broiler Chicken Farms and Chicken Meat

Dančová,

Gregová,

Szabóová

et al. 2024

Applied Sciences

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Escherichia coli isolates from intensive poultry production are associated with antimicrobial resistance and worldwide health problems. The aim of the study was to detect and evaluate the phenotypic and genotypic antimicrobial resistance, biofilm formation, phylogenetic typing, and virulence factors in E. coli isolates from the rectal swabs of chickens from two farms and swabs of chicken meat purchased from Slovakian food markets. Interpretative readings of minimal inhibitory concentration (MIC) revealed dominant resistance to ampicillin (>50%) in both groups. We also detected higher resistance to ciprofloxacin (45%), tetracycline, ampicillin + sulbactam, and trimethoprim + sulfonamide (each >30%). Here, 28.57% of the strains studied were multidrug-resistant (MDR). The formation of weak biofilms was confirmed in 8.8% of E. coli, while one of the strains obtained from chicken cloacal swabs was classified as a strong biofilm producer. The most frequently confirmed phylogenetic groups in E. coli were B1 and A1 in all groups. PCR detection revealed the presence of genes encoding tetracycline resistance (tetAB) and plasmid-mediated quinolone resistance (qnrABS), and Int1 (52.9%), Tn3 (76.5%), kpsMT II (8.8%), fimA (97.1%), cvaC (38.2%), and iutA (76.5%) genes in the strains studied. Our results demonstrate that chickens and chicken meat were the source of antibiotic-resistant, biofilm-forming, and virulent E. coli, representing a potential risk from the point of view of the One Health concept.

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Evaluating Antibiotic Resistance in the Bacterial Pathogens Isolated from Avian Species

Abrar,

Abro,

Kalhoro

et al. 2024

JMS

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The avian population plays a vital role as both a reservoir and sentinel for numerous pathogens. Antimicrobials are widely used for the treatment and control of infections in avian species. However, inappropriate selection, irrational use of these antibiotics may contribute to the development of drug resistance in population. This research evaluates the Antibiogram of Chlamydia psittaci, Klebsiella pneumonia, Escherichia coli, Staphylococcus epidermidis and Pasteurella multocida isolated from caged and free-living birds. Antimicrobial susceptibility was tested using the disk diffusion method on Mueller Hinton Agar, according to instructions by the Clinical and Laboratory Standards Institute. Chlamydia psittaci exhibited sensitivity to sulfamethoxazole (22mm), azithromycin (21mm), doxycycline (20mm) and gentamicin (15mm). In contrast, penicillin G, oxacillin, amoxicillin and chloramphenicol were ineffective. Escherichia coli shown azithromycin (20mm), doxycycline (16mm) and gentamicin (15mm) were most effective. Klebsiella pneumoniae demonstrated high sensitivity to sulfamethoxazole (20mm) and doxycycline (18mm), and showing complete resistance to oxacillin and rifampin. Pasteurella multocida exhibited the highest susceptibility to doxycycline (21mm), sulfamethoxazole (20mm), amoxicillin (20mm), chloramphenicol (19mm), norfloxacin (18mm) and gentamicin (16mm). Staphylococcus epidermidis demonstrated high sensitivity to norfloxacin (23mm), doxycycline (23mm), oxacillin (22mm), chloramphenicol (22mm), sulfamethoxazole (17mm) and gentamicin (15mm). The current study reveals sulfamethoxazole, doxycycline, and azithromycin were highly effective antibiotics against the bacterial pathogens infecting avian species. Penicillin G, amoxicillin, oxacillin, and ampicillin were resistant against the identified bacterial species.

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Antimicrobial resistance of avian pathogenic Escherichia coli isolated from broiler, layer, and breeder chickens

Cited by 3 publications

References 83 publications

Isolation and Characterization of a Novel Escherichia Bacteriophage with Potential to Control Multidrug-Resistant Avian Pathogenic Escherichia coli and Biofilms

Isolation and Characterization of a Novel Escherichia Bacteriophage with Potential to Control Multidrug-Resistant Avian Pathogenic Escherichia coli and Biofilms

Quinolone and Tetracycline-Resistant Biofilm-Forming Escherichia coli Isolates from Slovak Broiler Chicken Farms and Chicken Meat

Evaluating Antibiotic Resistance in the Bacterial Pathogens Isolated from Avian Species

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