Storage Temperature Effects on Bacillus Spores and Lactobacillus acidophilus Viability.

2025-01
International journal of food science 2025(1)

PubMed: 41030592
DOI: 10.1155/ijfo/3966944

Study Design

Population: four commercial probiotic strains: Lactobacillus acidophilus (LA-1) vegetative cells, Bacillus subtilis 1 spores, ProSilience Bacillus subtilis HU58 (HU58) spores, and Bacillus coagulans GBI-30, 6086 (BC30) spores
Methods: probiotics were incorporated into cookies and crackers, which were then stored at 25°C, 4°C, and -18°C for 12 months; evaluations were conducted at eight different time points throughout the storage period

This study investigated the impact of various storage temperatures on the viability of four commercial probiotic strains: Lactobacillus acidophilus (LA-1) vegetative cells, Bacillus subtilis 1 spores, ProSilience Bacillus subtilis HU58 (HU58) spores, and Bacillus coagulans GBI-30, 6086 (BC30) spores. These probiotics were incorporated into cookies and crackers, which were then stored at 25°C, 4°C, and -18°C for 12 months. Evaluations were conducted at eight different time points throughout the storage period. Among the probiotics tested, the B. subtilis spores exhibited the greatest stability, showing < 2 log reductions under all conditions over the 12 months. In contrast, LA-1 cells were the least stable, falling below the minimum therapeutic level for probiotic microorganisms in a food product (10⁶ CFU/g) after just 2 months in crackers and 4 months in cookies. BC30 spores were more sensitive to temperature changes than the other Bacillus strains (B. subtilis 1 and HU58), with > 4 log reductions. This study also revealed that different probiotics have distinct optimal storage conditions. However, storage temperature had no significant effect on the viability of B. subtilis 1 spores, BC30 spores, and LA-1 vegetative cells. In contrast, HU58 spores were notably affected by temperature during the final months of storage. Specifically, samples held at 25°C showed significantly higher log reductions compared to those stored at cooler temperatures, highlighting HU58's sensitivity to temperature, particularly with longer storage periods. Throughout the storage period, both BC30 spores and LA-1 cells experienced substantial increases in log reductions. Overall, this study highlights the importance of selecting appropriate storage conditions for different probiotic strains to maintain their viability in food products over extended periods.

Research Insights

Supplement	Dose	Health Outcome	Effect Type	Effect Size	Source
Bacillus subtilis HU58	—	Maintained Probiotic Viability During Storage	Beneficial	Moderate	View source HU58 spores were notably affected by temperature during the final months of storage. Specifically, samples held at 25°C showed significantly higher log reductions compared to those stored at cooler temperatures, highlighting HU58's sensitivity to temperature, particularly with longer storage periods.