1. Quantifying the robustness of a broth-based Escherichia coli O157:H7 growth model in ground beef.
- Author
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Campos DT, Marks BP, Powell MR, and Tamplin ML
- Subjects
- Animals, Colony Count, Microbial, Hydrogen-Ion Concentration, Kinetics, Predictive Value of Tests, Sensitivity and Specificity, Temperature, Time Factors, Escherichia coli O157 growth & development, Food Handling methods, Food Microbiology, Meat Products microbiology, Models, Biological
- Abstract
The robustness of a microbial growth model must be assessed before the model can be applied to new food matrices; therefore, a methodology for quantifying robustness was developed. A robustness index (RI) was computed as the ratio of the standard error of prediction to the standard error of calibration for a given model, where the standard error of calibration was defined as the root mean square error of the growth model against the data (log CFU per gram versus time) used to parameterize the model and the standard error of prediction was defined as the root mean square error of the model against an independent data set. This technique was used to evaluate the robustness of a broth-based model for aerobic growth of Escherichia coli 0157:H7 (in the U.S Department of Agriculture Agricultural Research Service Pathogen Modeling Program) in predicting growth in ground beef under different conditions. Comparison against previously published data (132 data sets with 1,178 total data points) from experiments in ground beef at various experimental conditions (4.8 to 45 degrees C and pH 5.5 to 5.9) yielded RI values ranging from 0.11 to 2.99. The estimated overall RI was 1.13. At temperatures between 15 and 40 degrees C, the RI was close to and smaller than 1, indicating that the growth model is relatively robust in that temperature range. However, the RI also was related (P < 0.05) to temperature. By quantifying the predictive accuracy relative to the expected accuracy, the RI could be a useful tool for comparing various models under different conditions.
- Published
- 2005
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