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Avian Dis.: Transmission and shedding patterns of Salmonella in naturally infected captive wild roof rats (Rattus rattus) from a Salmonella-contaminated layer farm.

Transmission and shedding patterns of Salmonella in naturally infected captive wild roof rats (Rattus rattus) from a Salmonella-contaminated layer farm. Umali DV, Simoun RR, Lapuz P, et al. Avian Dis. 2012; 56:288 294.

Rodents play a major role in the transmission and maintenance of Salmonella contamination cycles in poultry facilities. However, very limited field data are available regarding the transmission routes, infection cycle, and shedding patterns of Salmonella by naturally infected wild rodents from commercial layer farms. In this study, a total of 128 resident wild roof rats (Rattus rattus) were captured from a Salmonella-contaminated layer facility. All roof rats were divided into 51 laboratory cages, and weekly monitoring of Salmonella fecal shedding patterns was conducted for 53 weeks. Seven roof rats from cages that were observed to frequently shed Salmonella were isolated in individual cages, and daily Salmonella monitoring was performed for 35 days. At the end of monitoring, each roof rat was euthanatized, and isolation of Salmonella from different organs was performed. Results of weekly monitoring of Salmonella showed that 21 of 51 cages (41.2%) were positive for Salmonella infantis, whereas 2 cages (3.92%) were positive for Salmonella enteritidis. Moreover, 11 cages were positive for Salmonella for at least 2 sampling weeks. Isolation of Salmonella from fecal droppings was mainly observed during the first 12 weeks of captivity. The longest interval between 2 Salmonella-positive fecal dropping was 24 weeks. In the daily Salmonella monitoring, only S infantis was isolated from fecal droppings, in which the highest number of S infantis organisms per fecal dropping was at 1 x [10.sup.8] colony-forming units (cfu), whereas the lowest measured quantity was 1 x [10.sup.3] cfu. It was noted that the frequency of Salmonella shedding in fecal droppings appeared to have a linear correlation (r = 0.85) with the number of Salmonella organisms (cfu) per fecal pellet (P < .05). Moreover, pulsed-field gel electrophoresis analysis of S infantis isolates revealed a single identical pulsed-field pattern. Salmonella enteritidis isolates from fecal droppings and internal organs also generated a single identical pulsed-field pattern. Interestingly, S infantis was not isolated from any of the organs examined, whereas S enteritidis was isolated from the spleen and liver of one roof rat. These results may indicate that wild roof rats could persistently carry Salmonella and contaminate commercial poultry facilities through intermittent fecal shedding. Moreover, S enteritidis in wild roof rats appears to be more of a systemic infection, in which isolation is most likely to occur in internal organs, whereas S infantis is more likely an enteric type of infection, in which isolation is most likely to occur in the intestinal contents. It is very plausible that layer chickens could become infected with Salmonella through ingestion of Salmonella-positive fecal droppings or feeds contaminated with these fecal droppings from infected resident roof rats. This is likely one of the major reasons why layer houses can be persistently infected by Salmonella even if the facilities are thoroughly cleaned and disinfected and if replacement stocks are obtained from Salmonella-free breeders and rearing units. It is therefore a noteworthy suggestion that rodent control programs inside poultry premises comprise an essential and effective tool in the management and control of Salmonella contamination in layer flocks.
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Author:Umali, D.V.; Simoun, R.R.; Lapuz, P.
Publication:Journal of Avian Medicine and Surgery
Article Type:Reprint
Date:Sep 1, 2012
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