Alfalfa Sprouts and Salmonella Kottbus Infection

Alfalfa Sprouts and Salmonella Kottbus Infection:  A Multistate Outbreak Following Inadequate Seed Disinfection with Heat and Chlorine

January 2003
Journal of Food Protection: Vol. 66, No. 1, pp. 13­17
K. L. Winthrop,a, c M. S. Palumbo,b J. A. Farrar,b J. C. Mohle-Bohle-Boetani,a S. Abbott,a M. E. Beatty,c, d G. Inami,a and S. B. Wernera

  1. California Department of Health Services, Division of Communicable Disease Control, 2151 Berkeley Way, Berkeley, California 94704
  2. California Department of Health Services, Food and Drug Branch, 601 North 7th Street, MS 357, P.O. Box 942732, Sacramento, California 94234
  3. Epidemic Intelligence Service, Epidemiology Program Office, Centers for Disease Control and Prevention, 1600 Clifton Road, Atlanta, Georgia 30333
  4. Foodborne and Diarrheal Diseases Branch, Division of Bacterial and Mycotic Diseases, Centers for Disease Control and Prevention, 1600 Clifton Road, Atlanta, Georgia 30333, USA

ABSTRACT
Raw sprouts have been implicated in a number of foodborne disease outbreaks. Because contaminated seeds are usually responsible, many sprout producers attempt to disinfect seeds before germination and detect sprout contamination during production. In March 2001, we detected an increased number of Salmonella serotype Kottbus isolates in California. Overall, we identified 31 cases from three western states. To identify the cause, we conducted a case-control study with the first 10 identified case-patients matched to 20 controls by age, sex, and residential area. Our case-control study found illness to be statistically associated with alfalfa sprout consumption. The traceback investigation implicated a single sprouter, where environmental studies yielded Salmonella Kottbus from ungerminated seeds and floor drains within the production facility. Pulsed-field gel electrophoresis patterns of all patient, seed, and floor drain Salmonella Kottbus isolates were indistinguishable. Most implicated sprouts were from seeds that underwent heat treatment and soaking with a 2,000-ppm sodium hypochlorite solution rather than the Food and Drug Administration (FDA)-recommended 20,000-ppm calcium hypochlorite soak. Other implicated seeds had been soaked in a calcium hypochlorite solution that, when tested, measured only 11,000 ppm. The outbreak might have been averted when screening tests of sprout irrigation water detected Salmonella in January; however, confirmatory testing of these samples was negative (but testing improperly utilized refrigerated irrigation water). Producers should use the enrichment broth of positive screening samples, not refrigerated irrigation water, for confirmatory testing. Until other effective disinfection technologies are developed, producers should adhere to FDA recommendations for sprout seed disinfection.