Browsing by Author "Tang, Jia"

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    Listeria monocytogenes in Retail Delicatessens: An Interagency Risk Assessment-Risk Mitigations
    Gallagher, Daniel L.; Pouillot, Regis; Hoelzer, Karin; Tang, Jia; Dennis, Sherri B.; Kause, Janell R. (2016-07)
    Cross-contamination, improper holding temperatures, and insufficient sanitary practices are known retail practices that may lead to product contamination and growth of Listeria monocytogenes. However, the relative importance of control options to mitigate the risk of invasive listeriosis from ready-to-eat (RTE) products sliced or prepared at retail is not well understood. This study illustrates the utility of a quantitative risk assessment model described in a first article of this series (Pouillot, R., D. Gallagher, J. Tang, K. Hoelzer, J. Kause, and S. B. Dennis, J. Food Prot. 78: 134-145, 2015) to evaluate the public health impact associated with changes in retail deli practices and interventions. Twenty-two mitigation scenarios were modeled and evaluated under six different baseline conditions. These scenarios were related to sanitation, worker behavior, use of growth inhibitors, cross-contamination, storage temperature control, and reduction of the level of L. monocytogenes on incoming RTE food products. The mean risk per serving of RTE products obtained under these scenarios was then compared with the risk estimated in the baseline condition. Some risk mitigations had a consistent impact on the predicted listeriosis risk in all baseline conditions (e.g. presence or absence of growth inhibitor), whereas others were greatly dependent on the initial baseline conditions or practices in the deli (e.g. preslicing of products). Overall, the control of the bacterial growth and the control of contamination at its source were major factors of listeriosis risk in these settings. Although control of cross-contamination and continued sanitation were also important, the decrease in the predicted risk was not amenable to a simple solution. Findings from these predictive scenario analyses are intended to encourage improvements to retail food safety practices and mitigation strategies to control L. monocytogenes in RTE foods more effectively and to demonstrate the utility of quantitative risk assessment models to inform risk management decisions.
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    Modeling contaminant transport in polyethylene and metal speciation in saliva
    Tang, Jia (Virginia Tech, 2010-06-17)
    Properties of both chemical contaminants and polymers can impact contaminant diffusivity and solubility in new and aged polyethylene materials for pipes and geomembranes. Diffusivity, solubility, polymer and chemical properties were measured for thirteen contaminants and six polyethylene materials that were new and/or aged in chlorinated water. Tree regression was used to select variables, and linear regression was used to develop predictive equations for contaminant diffusivity and solubility in polyethylene. Organic contaminant properties had greater predictive capability than polyethylene properties. Model coefficients significantly changed between new materials to chlorine-aged materials, indicating changes of polyethylene properties impact the interaction between contaminants and polymers. The metallic flavor of copper in drinking water influences the taste of water and can cause the taste problems for water utilities. The mechanism of metallic flavor caused by these metals is related to free or soluble ions. Free copper concentrations were measured at different pH in diluted artificial saliva using a cupric ion selective electrode. Three major proteins in human saliva: α-amylase, mucin and lactoferrin, were added in the artificial saliva and the impacts on the chemical speciation of copper were analyzed. Inorganic saliva components, typically phosphate, carbonate and hydroxide combined with copper and greatly influenced the levels of free copper in the oral cavity. Proteins such as α-amylase, mucin and lactoferrin also impacted the chemical speciation of copper, with different affinity to copper. Mucin had the greatest affinity with copper than α-amylase.
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    Risk Assessment of Listeria monocytogenes in Ready-to-eat Meat from Plants to Consumption
    Tang, Jia (Virginia Tech, 2013-05-08)
    Listeriosis caused by Listeria monocytogenes (L. monocytogenes) has been of public concern since the 1980s. Among all the RTE food, deli meats are the major carrier for this pathogen. Eliminating or lowering the initial level of L. monocytogenes in RTE meat and poultry product in the plants is an important practice in reducing the risk of L. monocytogenes to the public due to the growth potential of L. monocytogenes in the RTE food product during storage. Research identifying the contamination at plants provided information for the Food Safety and Inspection Service (FSIS) to establish the Interim Final Rule, requiring the food processing plants that produce post-lethality exposed RTE meat and poultry product choose one of the three alternative plans to ensure good sanitation conditions during food processing or suppress the growth of L. monocytogenes during storage: post-processing treatment and use of growth inhibitor (Alternative1), post-processing alone (Alternative 2a) or use of growth inhibitor and sanitation program (Alternative 2b), and sanitation program alone (Alternative 3). This research developed a comprehensive model that simulated the entire processes of RTE food production, taking into account potential transfer and growth of L. monocytogenes in RTE meat and poultry products. This plant-to-consumption model analyzed the effectiveness of the three alternative processes on reducing the L. monocytogenes in the RTE food products and also investigated the optimal sampling and sanitizing program. Results showed that formulation of food products with growth inhibitor has the greatest impact on reducing the risk of L. monocytogenes, followed by the post-processing treatment and sanitation intervention. Risk can also be reduced depending on alternatives. For example, 70% reduction if all are switched to alternative 2b and 91% reduction if all are switched to Alternative 1, compared with the current alternative selection by food establishments. This study investigated several important factors in the sanitation program, analyzed the sensitivities of these factors, and proposed the reasonable improvement of the hold-and-test strategies by the plant-to-consumer mathematic model. Holding all the lots during the food contact surface (FCS) testing period instead of holding lots after finding the positive FCS would increase the detection rate of positive lots by three "times. These results may help the food establishments under Alternative 3 choosing the proper sampling and sanitation program or switching to Alternative 1 or 2.