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Appl Environ Microbiol. 1992 June; 58(6): 2016-2021

Inactivation of poliovirus type 1 in mixed human and swine wastes and by bacteria from swine manure.

Food Research Institute, Department of Food Microbiology and Toxicology, WHO Collaborating Centre on Food Virology, Madison, Wisconsin.

ABSTRACT

The persistence of poliovirus type 1 (PO1) in mixed septic tank effluent and swine manure slurry was determined, and the antiviral effects of several bacterial cultures isolated from swine manure slurry were demonstrated. In two field experiments, PO1 was consistently inactivated more rapidly in the mixed waste than in the control Dulbecco's phosphate-buffered saline (D-PBS). D values (time [in days] for a 90% reduction of virus titer) were 18.7 and 29.9 for the mixed waste and 56.5 and 51.8 for the D-PBS control, respectively. The virus inactivation in the mixed waste was temperature dependent. A comparison of PO1 inactivation in raw mixed waste, autoclaved mixed waste, and bacterium-free filtrate of raw mixed waste at the same pH and temperatures provided an initial demonstration that the virus inactivation in the mixed waste is related, at least in part, to microbial activity. At 25 degrees C, the D value was 6.8 for the mixed waste, 11.2 for the autoclaved mixed waste, and 10.5 for the bacterium-free filtrate of raw mixed waste. At 37 degrees C, D values were 1.3, 3.9, and 3.1 for these three suspending media, respectively. Three bacterial isolates which had shown antiviral effects in a screening test each caused virus inactivation in autoclaved mixed waste, in which the effect of other microorganisms was excluded. Inhibition of PO1 inactivation by protease inhibitors suggests that the virus inactivation in the mixed waste was due in part to proteolytic enzymes produced by bacteria in the waste.