Identification of sources of Salmonella organisms in a veterinary teaching hospital and evaluation of the effects of disinfectants on detection of Salmonella organisms on surface materials.

OBJECTIVE To determine sources of Salmonella organisms in a veterinary teaching hospital, compare bacterial culture with polymerase chain reaction (PCR) testing for detection of Salmonella organisms in environmental samples, and evaluate the effects of various disinfectants on detection of Salmonella organisms on surface materials. DESIGN Prospective study. SAMPLE POPULATION Fecal samples from 638 hospitalized horses and 783 environmental samples. PROCEDURE Standard bacterial culture techniques were used; the PCR test amplified a segment of the Salmonella DNA. Five disinfectants were mixed with Salmonella suspensions, and bacterial culture was performed. Swab samples were collected from 7 surface materials after inoculation of the surfaces with Salmonella Typhimurium, with or without addition of a disinfectant, and submitted for bacterial culture and PCR testing. RESULTS Salmonella organisms were detected in fecal samples from 35 (5.5%) horses. For environmental samples, the proportion of positive bacterial culture results (1/783) was significantly less than the proportion of positive PCR test results (110/783), probably because of detection of nonviable DNA by the PCR test. Detection of Salmonella organisms varied with the surface material tested, the method of detection (bacterial culture vs PCR testing), and the presence and type of disinfectant. CONCLUSIONS AND CLINICAL RELEVANCE Results of the present study suggested that Salmonella organisms can be isolated from feces of hospitalized horses and a variety of environmental surfaces in a large animal hospital. Although recovery of Salmonella organisms was affected by surface material and disinfectant, bleach was the most effective disinfectant on the largest number of surfaces tested.

[1]  S. Ewart,et al.  An outbreak of salmonellosis among horses at a veterinary teaching hospital. , 2001, Journal of the American Veterinary Medical Association.

[2]  S. Brown,et al.  Safety and cleaning of medical materials and devices. , 2000, Journal of biomedical materials research.

[3]  A. D. Russell,et al.  Antiseptics and Disinfectants: Activity, Action, and Resistance , 2001, Clinical Microbiology Reviews.

[4]  J. Lavoie,et al.  [Prevalence of infections caused by Salmonella spp. in cattle and horses at the Veterinary Teaching Hospital of the Faculty of Veterinary Medicine of the University of Montreal]. , 1998, The Canadian veterinary journal = La revue veterinaire canadienne.

[5]  J. Traub-Dargatz,et al.  Outbreak of Salmonella infantis infection in a large animal veterinary teaching hospital. , 1997, Journal of the American Veterinary Medical Association.

[6]  C. Batt,et al.  Bacterial Retention and Cleanability of Plastic and Wood Cutting Boards with Commercial Food Service Maintenance Practices. , 1997, Journal of Food Protection.

[7]  J. Frank,et al.  Effectiveness of sanitation with quaternary ammonium compound or chlorine on stainless steel and other domestic food-preparation surfaces. , 1997, Journal of food protection.

[8]  S. Mcguirk,et al.  Control of an outbreak of salmonellosis caused by drug-resistant Salmonella anatum in horses at a veterinary hospital and measures to prevent future infections. , 1996, Journal of the American Veterinary Medical Association.

[9]  N. Cohen,et al.  Comparison of polymerase chain reaction and microbiological culture for detection of salmonellae in equine feces and environmental samples. , 1996, American journal of veterinary research.

[10]  N. Cohen,et al.  Detection of Salmonella Enteritidis in Equine Feces using the Polymerase Chain Reaction and Genus-Specific Oligonucleotide Primers , 1995, Journal of veterinary diagnostic investigation : official publication of the American Association of Veterinary Laboratory Diagnosticians, Inc.

[11]  E. van Duijkeren,et al.  Equine salmonellosis in a Dutch veterinary teaching hospital , 1994, Veterinary Record.

[12]  N. Cohen,et al.  Genus-specific detection of salmonellae in equine feces by use of the polymerase chain reaction. , 1994, American journal of veterinary research.

[13]  D. Cliver,et al.  Cutting Boards of Plastic and Wood Contaminated Experimentally with Bacteria. , 1994, Journal of food protection.

[14]  P. Quinn Clinical veterinary microbiology , 1994 .

[15]  J. Traub-Dargatz,et al.  Epidemiologic study of salmonellae shedding in the feces of horses and potential risk factors for development of the infection in hospitalized horses. , 1990, Journal of the American Veterinary Medical Association.

[16]  A. Begg,et al.  Some aspects of the epidemiology of equine salmonellosis. , 1988, Australian Veterinary Journal.

[17]  A. Linton,et al.  Disinfection in veterinary and farm animal practice , 1987 .

[18]  R. Whitlock,et al.  Salmonella shed by horses with colic. , 1985, Journal of the American Veterinary Medical Association.

[19]  D. D. Morris,et al.  Comparison of rectal mucosal cultures and fecal cultures in detecting Salmonella infection in horses and cattle. , 1985, American Journal of Veterinary Research.

[20]  M. Reina-Guerra,et al.  Prevalence and epizootiology of equine salmonellosis. , 1978, Journal of the American Veterinary Medical Association.