| The heat resistance of spores continues to be a challenge in food processing applications. Suitable methods that effectively inactivate spores without producing adverse effects on quality and nutrition of food products are constantly being sought. In this study, the efficacy of extrusion cooking (180°C, 125 rpm, 1 MPa pressure) in inactivating wild-type spores in a soy meat analog was determined. The effect of several media in influencing heat resistance was also tested. The recovery media used were Nutrient Agar (NA), Nutrient Agar with 1 ppm Calcium plus starch (NACaS) and fortified concentrated Tryptone glucose extract (TGE) agar with Calcium and dipicolinate (Ca-DPA TGE).;The wild-type spores were isolated from soy flour, soy protein concentrate and wheat gluten. Several sporulation media were tested to determine the media that would yield the most heat resistant spores. Sporulation Agar I was determined to result in the most heat resistant spores. Next, the D-values of B. cereus, 4II 1, B. stearothermophilus and 3III 1C spores suspended in peptone water were obtained. Both B. cereus and 4II 1 spores that were less heat tolerant had a comparable D-value 100°C, while B. stearothermophilus and 3III 1C spores that were more heat resistant also had a comparable D-value150°C . Extrusion processing of the soy meat analog inoculated with B. stearothermophilus, 4II 1 and 3III 1C spores also revealed that B. stearothermophilus spores were the most heat resistant. However, cooking significantly reduced the numbers of B. stearothermophilus , 4II 1 and 3III 1C spores inoculated into the soy meat analog. |
