Development of a low-cost sterilization biological indicator using Bacillus atrophaeus by solid-state fermentation

Abstract

The production of biological indicators involving bacterial sporulation and multi-step downstream processes has been described. The goal of the present work was to use fermented material as the final product in a biological indicator, thereby reducing processing steps and costs. The performance of three different inexpensive supports (vermiculite, sand, and sugarcane bagasse) was assessed by determining Bacillus atrophaeus sporulation during solid-state fermentation and by assessing the direct use of the fermentation products in the subsequent steps of the process. All three supports allowed spore production of between 10(7) and 10(9) CFU g(-1). Sand proved to be the best inert support enabling the direct use of the fermented product due to its easy homogenization, filling properties, and compatibility with recovery medium. Bacterial adhesion to the sand surface was supported by biofilm formation. The resistance to sterilization of the dried fermentation product was evaluated. For dry-heat resistance (160°C), the D value was 6.6 min, and for ethylene oxide resistance (650 mg/L), the D value was 6.5 min. The cost reduction of this process was at least 48%. No previous studies have been published on the application of sand as a support in solid-state fermentation for the production of biological indicators.