Survival Kinetics of Salmonella enterica and Enterohemorrhagic Escherichia coli on a Plastic Surface at Low Relative Humidity and on Low-Water Activity Foods.

We investigated the survival kinetics of Salmonella enterica and enterohemorrhagic Escherichia coli under various water activity (aw) conditions to elucidate the net effect of aw on pathogen survival kinetics and to pursue the development of a predictive model of pathogen survival as a function of aw. Four serotypes of S. enterica (Stanley, Typhimurium, Chester, and Oranienburg) and three serotypes of enterohemorrhagic E. coli ( E. coli O26, E. coli O111, and E. coli O157:H7) were examined. These bacterial strains were inoculated on a plastic plate surface at a constant relative humidity (RH) (22, 43, 58, 68, or 93% RH, corresponding to the aw) or on a surface of almond kernels (aw 0.58), chocolate (aw 0.43), radish sprout seeds (aw 0.58), or Cheddar cheese (aw 0.93) at 5, 15, or 25°C for up to 11 months. Under most conditions, the survival kinetics were nonlinear with tailing regardless of the storage aw, temperature, and bacterial strain. For all bacterial serotypes, there were no apparent differences in pathogen survival kinetics on the plastic surface at a given storage temperature among the tested RH conditions, except for the 93% RH condition. Most bacterial serotypes were rapidly inactivated on Cheddar cheese when stored at 5°C compared with their inactivation on chocolate, almonds, and radish sprout seeds. Distinct trends in bacterial survival kinetics were also observed between almond kernels and radish sprout seeds, even though the aws of these two foods were not significantly different. The survival kinetics of bacteria inoculated on the plastic plate surface showed little correspondence to those of bacteria inoculated on food matrices at an identical aw. Thus, these results demonstrated that, for low-aw foods and/or environments, aw alone is insufficient to account for the survival kinetics of S. enterica and enterohemorrhagic E. coli .

[1]  S. Keller,et al.  Survival of Salmonella during Drying of Fresh Ginger Root (Zingiber officinale) and Storage of Ground Ginger. , 2015, Journal of food protection.

[2]  L. Beuchat,et al.  Survival of Salmonella in Cookie and Cracker Sandwiches Containing Inoculated, Low-Water Activity Fillings. , 2015, Journal of food protection.

[3]  M. Ponder,et al.  Inoculation Preparation Affects Survival of Salmonella enterica on Whole Black Peppercorns and Cumin Seeds Stored at Low Water Activity. , 2015, Journal of food protection.

[4]  J. Frank,et al.  Predicting survival of Salmonella in low-water activity foods: an analysis of literature data. , 2014, Journal of food protection.

[5]  D. G. Black,et al.  Survival of Salmonella Tennessee, Salmonella Typhimurium DT104, and Enterococcus faecium in peanut paste formulations at two different levels of water activity and fat. , 2014, Journal of food protection.

[6]  L. Beuchat,et al.  Survival of salmonella on dried fruits and in aqueous dried fruit homogenates as affected by temperature. , 2014, Journal of food protection.

[7]  R. Reimschuessel,et al.  Outbreak of Salmonella enterica serotype Infantis infection in humans linked to dry dog food in the United States and Canada, 2012. , 2014, Journal of the American Veterinary Medical Association.

[8]  J. Frank,et al.  Modeling the influence of temperature, water activity and water mobility on the persistence of Salmonella in low-moisture foods. , 2013, International journal of food microbiology.

[9]  S. Keller,et al.  Growth and survival of Salmonella in ground black pepper (Piper nigrum). , 2013, Food microbiology.

[10]  R. Quick,et al.  A recurrent, multistate outbreak of salmonella serotype agona infections associated with dry, unsweetened cereal consumption, United States, 2008. , 2013, Journal of food protection.

[11]  J. V. Smith,et al.  Survival of Salmonella in a high sugar, low water-activity, peanut butter flavored candy fondant , 2012 .

[12]  M. Danyluk,et al.  Survival of Salmonella, Escherichia coli O157:H7, and Listeria monocytogenes on inoculated almonds and pistachios stored at -19, 4, and 24° C. , 2012, Journal of food protection.

[13]  E. Trees,et al.  A novel vehicle for transmission of Escherichia coli O157:H7 to humans: multistate outbreak of E. coli O157:H7 infections associated with consumption of ready-to-bake commercial prepackaged cookie dough--United States, 2009. , 2012, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[14]  C. Hedberg,et al.  Use of traceback methods to confirm the source of a multistate Escherichia coli O157:H7 outbreak due to in-shell hazelnuts. , 2012, Journal of food protection.

[15]  Wei Zhang,et al.  Survival and Heat Resistance of Salmonella enterica and Escherichia coli O157:H7 in Peanut Butter , 2011, Applied and Environmental Microbiology.

[16]  D. Zink,et al.  A national outbreak of Salmonella serotype Tennessee infections from contaminated peanut butter: a new food vehicle for salmonellosis in the United States. , 2011, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.

[17]  D. G. Black,et al.  Sources and risk factors for contamination, survival, persistence, and heat resistance of Salmonella in low-moisture foods. , 2010, Journal of food protection.

[18]  L. Beuchat,et al.  Survival of Enterobacter sakazakii in powdered infant formula as affected by composition, water activity, and temperature. , 2007, Journal of food protection.

[19]  R. Beumer,et al.  Survival, elongation, and elevated tolerance of Salmonella enterica serovar Enteritidis at reduced water activity. , 2006, Journal of food protection.

[20]  M. Hajmeer,et al.  Modeling the survival of Salmonella spp. in chorizos. , 2006, International journal of food microbiology.

[21]  K. Sakae,et al.  Ability of Shiga Toxin-Producing Escherichia coli and Salmonella spp. To Survive in a Desiccation Model System and in Dry Foods , 2005, Applied and Environmental Microbiology.

[22]  W. Rabsch,et al.  Salmonella Agona Outbreak from Contaminated Aniseed, Germany , 2005, Emerging infectious diseases.

[23]  A. Siitonen,et al.  International outbreak of Salmonella Oranienburg due to German chocolate , 2005, BMC infectious diseases.

[24]  M. Peleg,et al.  Calculating Microbial Survival Parameters and Predicting Survival Curves from Non-Isothermal Inactivation Data , 2004, Critical reviews in food science and nutrition.

[25]  K. Lilley,et al.  Survival of Escherichia coli O157:H7, O111:H- and O26:H11 in artificially contaminated chocolate and confectionery products. , 2004, International journal of food microbiology.

[26]  M. Kirk,et al.  An outbreak due to peanuts in their shell caused by Salmonella enterica serotypes Stanley and Newport – sharing molecular information to solve international outbreaks , 2004, Epidemiology and Infection.

[27]  J. Sofos,et al.  Survival and growth of Salmonella in reconstituted infant cereal hydrated with water, milk or apple juice and stored at 4°C, 15°C and 25°C , 2003 .

[28]  L. Beuchat,et al.  Combined effects of water activity, temperature and chemical treatments on the survival of Salmonella and Escherichia coli O157:H7 on alfalfa seeds , 2002, Journal of applied microbiology.

[29]  L. Beuchat,et al.  Survival of Escherichia coli O157:H7 in potato starch as affected by water activity, pH and temperature , 2000, Letters in applied microbiology.

[30]  L. Beuchat,et al.  Survival of Salmonella in peanut butter and peanut butter spread , 2000, Journal of applied microbiology.

[31]  A. Ellis,et al.  Illness outbreak associated with Escherichia coli O157:H7 in Genoa salami. E. coli O157:H7 Working Group. , 2000, CMAJ : Canadian Medical Association journal = journal de l'Association medicale canadienne.

[32]  M. Peleg,et al.  Modeling Microbial Survival during Exposure to a Lethal Agent with Varying Intensity , 2000, Critical reviews in food science and nutrition.

[33]  Y. Jung,et al.  Survival of multidrug-resistant Salmonella typhimurium DT104 in egg powders as affected by water activity and temperature. , 1999, International journal of food microbiology.

[34]  J. Ryu,et al.  Survival of Escherichia coli O157:H7 in dried beef powder as affected by water activity, sodium chloride content and temperature , 1999 .

[35]  J. Ryu,et al.  Influence of temperature and pH on survival of Escherichia coli O157:H7 in dry foods and growth in reconstituted infant rice cereal. , 1998, International journal of food microbiology.

[36]  J. Morris,et al.  A new route of transmission for Escherichia coli: infection from dry fermented salami. , 1996, American journal of public health.

[37]  J. Bockemühl,et al.  Nationwide outbreak of human salmonellosis in Germany due to contaminated paprika and paprika-powdered potato chips , 1995, Epidemiology and Infection.

[38]  A. Hansen,et al.  Outbreak of Salmonella typhimurium infection traced to contaminated chocolate and caused by a strain lacking the 60-megadalton virulence plasmid , 1990, Journal of clinical microbiology.

[39]  O. N. Gill,et al.  OUTBREAK OF SALMONELLA NAPOLI INFECTION CAUSED BY CONTAMINATED CHOCOLATE BARS , 1983, The Lancet.

[40]  N. Brisson,et al.  Salmonella eastbourne outbreak associated with chocolate , 1975 .

[41]  Wei Zhao,et al.  Survival of Salmonella enteric in skim milk powder with different water activity and water mobility , 2015 .

[42]  N. Nakamura,et al.  Comparison of desiccation tolerance among Listeria monocytogenes, Escherichia coli O157:H7, Salmonella enterica, and Cronobacter sakazakii in powdered infant formula. , 2015, Journal of food protection.

[43]  K. Kawai,et al.  Prediction Approach to the Glass Transition Temperature of Amorphous Carbohydrate Polymer , 2015 .

[44]  L. Beuchat,et al.  Low-water activity foods: increased concern as vehicles of foodborne pathogens. , 2013, Journal of food protection.

[45]  D. Middleton,et al.  An international outbreak of salmonellosis associated with raw almonds contaminated with a rare phage type of Salmonella enteritidis. , 2005, Journal of food protection.

[46]  H. Lior,et al.  An International Outbreak of Salmonella Nima from Imported Chocolate. , 1989, Journal of food protection.