Phage Therapy To Reduce Preprocessing Salmonella Infections in Market-Weight Swine

Contamination of meat products with food-borne pathogens usually results from the carcass coming in contact with the feces of an infected animal during processing. In the case of Salmonella, pigs can become colonized with the organism during transport and lairage from contaminated trailers and holding pens, resulting in increased pathogen shedding just prior to processing. Increased shedding, in turn, amplifies the likelihood of carcass contamination by magnifying the amount of bacteria that enters the processing facility. We conducted a series of experiments to test whether phage therapy could limit Salmonella infections at this crucial period. In a preliminary experiment done with small pigs (3 to 4 weeks old; 30 to 40 lb), administration of an anti-Salmonella phage cocktail at the time of inoculation with Salmonella enterica serovar Typhimurium reduced Salmonella colonization by 99.0 to 99.9% (2- to 3-log reduction) in the tonsils, ileum, and cecum. To test the efficacy of phage therapy in a production-like setting, we inoculated four market-weight pigs (in three replicates) with Salmonella enterica serovar Typhimurium and allowed the challenged pigs to contaminate a holding pen for 48 h. Sixteen naïve pigs were randomly split into two groups which received either the anti-Salmonella phage cocktail or a mock treatment. Both groups of pigs were comingled with the challenged pigs in the contaminated pen. Treatment with the anti-Salmonella phage cocktail significantly reduced cecal Salmonella concentrations (95%; P < 0.05) while also reducing (numerically) ileal Salmonella concentrations (90%; P = 0.06). Additional in vitro studies showed that the phage cocktail was also lytic against several non-Typhimurium serovars.The U.S. Centers for Disease Control and Prevention report approximately 40,000 culture-confirmed cases of salmonellosis each year in the United States, which result in approximately 400 deaths (5). Many Salmonella outbreaks are associated with meat and poultry (20), with contamination usually resulting from the carcass coming into contact with the feces of a Salmonella-infected animal during processing (22).There is an association between pork products and Salmonella, as swine are generally considered to be the second largest reservoir of the organism among food animals after poultry. Although infections in adult swine are normally asymptomatic, once colonized, pigs can shed the organism in the feces for weeks and sometimes months (7).While a great deal of research has been done on developing on-farm anti-Salmonella intervention strategies, these methods are confounded by the fact that Salmonella prevalence in pigs often increases once the animals leave the farm as a result of (i) stress-induced reactivation of preexisting infections (14), (ii) new infections from contaminated transport trailers and processing facility holding pens (12, 15, 24, 31), or (iii) both. Consequently, animals with no history of previous Salmonella infection can begin shedding the organism just prior to processing, which is highly problematic in terms of food safety.We hypothesized that phage therapy could be developed as an effective means to counteract transport- and lairage-associated increases in Salmonella colonization in swine. Phage therapy has the advantage of being natural, nontoxic, and relatively inexpensive and could be used just prior to slaughter, unlike many antibiotics (18, 28). Here we describe a series of experiments demonstrating that treating market-weight pigs with an anti-Salmonella phage cocktail prior to their comingling with Salmonella-infected pigs in a highly contaminated environment resulted in reductions in Salmonella colonization. We further show that the phage cocktail could be effectively microencapsulated, making feed or water delivery possible.