| Abstract: | Currently, in both home and institutional food preparation, attempts are being made to produce high quality foods with a minimum of time and effort. Research is being carried out to develop equipment capable of cooking foods in a fraction of the time required by conventional methods; as a result, the problem arises as to the bacteriological safety of these products. We investigated the microbiological aspects of lemon and chocolate foam pies before and after cooking by microwaves for less than 2 min. Pies prepared with sterile equipment under sanitary conditions were inoculated with washed cells from a 24-hr broth culture of Salmonella typhimurium and were incubated for 24, 48, and 72 hr at 33 C. The same procedures were followed in model systems to determine the effects of various sugar and pH levels on the survival of S. typhimurium. No S. typhimurium was detected in inoculated cooked or uncooked lemon pies by the plating method; with the Lactose Broth pre-enrichment method, survivors were detected in lemon pies immediately after preparation. After electronic cooking, no survivors were detected in lemon pies by plate counts, whereas cells were recovered from chocolate pies by the Lactose Broth method. Both chocolate and lemon pies had lower counts throughout the 72-hr incubation period than the model systems compared to them. With the model systems, at pH 7.3, media containing sugar inhibited the growth of S. typhimurium but did not cause a significant reduction in counts during the incubation times studied. At pH 3.7, media without sugar yielded no cells with the Lactose Broth pre-enrichment method after 48 hr of incubation, whereas media with sugar were not sterile until after 72 hr of incubation. Apparently, the presence of sugar in the medium had a protective influence which made the lethal effect of the low pH less severe. |
