Veterinary clinic surfaces as reservoirs of multi-drug- and biocide-resistant Gram-negative bacteria

• Published in: Access microbiology Vol. 3; no. 11; p. 000277
• Main Authors: Akwuobu, Chinedu A, Ngbede, Emmanuel O, Mamfe, Levi M, Ezenduka, Ekene V, Chah, Kennedy F
• Format: Journal Article
• Language: English
• Published: England Microbiology Society 2021
• Subjects: veterinary clinics; infection; Gram-negative bacteria; biocides; pathogens; surfaces
• ISSN: 2516-8290; 2516-8290
• DOI: 10.1099/acmi.0.000277

This cross-sectional study was carried out to determine the common Gram-negative bacteria (GNB) contaminating veterinary clinic environments, and to evaluate the susceptibility of the isolates to commonly used antibiotics and biocides. A total of 62 swab samples were collected from different frequently touched surfaces in the 4 veterinary clinics visited. The samples were processed for isolation and identification of GNB using standard microbiological procedures. The susceptibility of the isolates to disinfectants and antibiotics was determined using agar dilution and disc diffusion techniques, respectively. A total of 114 GNB were isolated from the 4 clinics with isolation rates of 21.9, 22.8, 23.7 and 31.6% in clinics A, B, C and D, respectively. The surfaces of treatment tables were more contaminated (16.7 %) than receptionist/clinician desks (15.8%), weighing balances (10.5 %), door handles (7.9 %), drip stands (7.9 %), handwashing basins (7.0 %) and client chairs (7.0%). The surface-contaminating isolates were distributed into 20 genera, with members of predominating ( =97). Fifty-nine per cent of the isolates were resistant to the disinfectant Septol, while 5.3 and 0.9% were resistant to Purit and Dettol disinfectants, respectively. Multiple drug resistance was observed among 99% of the isolates with approximately 100% resistance to beta-lactams. Phenotypic expression of extended-spectrum (3.5 %) and AmpC beta-lactamase (38.6 %) production was detected. These findings highlight the role of clinic environments in serving as reservoirs for potential pathogens and sources for the spread of multi-drug resistant GNB.