Abstract
In 2017, the zebrafish unit at University of Glasgow experienced a detrimental outbreak of pathogenic bacterium, Mycobacterium haemophilum. The presence of other bacterial species was also confirmed by bacteriology growth in the same unit. The affected individuals composed of a wild-origin parental population sourced from India and their F1 offspring generation. Bacteria were diagnostically confirmed to be present systemically in fish and within the water and biofilm of the recirculating zebrafish system. In the absence of a publicly accessible step-by-step disinfectant protocol for these difficult-to-eliminate pathogens, we devised a successful procedure to eradicate mycobacteria and Aeromonas species after colony removal using Cleanline Chlorine tablets (active ingredient Sodium dichloroisocyanurate) and Virkon Aquatic®. Postdisinfection diagnostics did not detect pathogens in the system or in the new fish inhabiting the system that were tested. Newly established fish colonies have not shown similar clinical signs or disease-induced mortality in the 1-year period following system disinfection and repopulation. We present a historical background of the bacterial outbreak and a disinfection method which can be replicated in other zebrafish facilities—at small or large scales—for reliable mycobacterium removal. This procedure can be implemented as a disinfection protocol before the introduction of a new fish population to a previously contaminated system.
Highlights
Zebrafish (Danio rerio) are the second most popular animal model used in medical research after rodents.[1]
In five of the six samples, Ziehl– Neelsen (ZN) stains were strongly positive for mycobacteria within the lesions
It was advised by histology staff that a severe systemic mycobacterial infection can often be associated with epidemics and high mortalities if the disease pressure is sufficient and/or there are underlying stressors
Summary
Zebrafish (Danio rerio) are the second most popular animal model used in medical research after rodents.[1]. The native range of zebrafish spans across central and southern Asia Due to their robustness and adaptability for many environments, they can be found in a host of slow-moving rivers and reservoir habitats within their native range.[6] desirable from a research perspective, wild-sourced fish can be problematic when transferred to recirculating systems within research facilities. Can they transmit pathogens from their respective native habitats and they can be more susceptible to common opportunistic pathogens found ubiquitously in recirculation units.[7]
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