AI Article Synopsis

  • Probiotics need to maintain a minimum concentration during storage to be effective, and the study focuses on improving the survival of one specific probiotic, LR, using alginate microencapsulation combined with camelina seed mucilage and protein.
  • The best formulation achieved a high encapsulation efficiency of 94.15% and resulted in saffron milk desserts that maintained acceptable probiotic levels and quality over time.
  • The study concluded that camelina seed components can enhance probiotic stability, providing a foundation for creating functional foods that better support probiotic survival through storage and gastrointestinal passage.

Article Abstract

The effectiveness of probiotics in delivering health benefits may be associated with their capacity to maintain a minimum concentration of 10 CFU/g during food storage and to successfully colonize the gastrointestinal tract (GI). (LR) is a probiotic that does not exhibit adequate stability under harsh conditions. To enhance the survival capacity of LR during gastrointestinal storage, alginate (ALG) was used as a primary encapsulating layer through extrusion microencapsulation. Subsequently, camelina seed mucilage (CSM) and camelina seed protein (CSP) were applied as secondary layers at varying concentrations (0%-4%). Among the tested formulations, ALG-CSM-CSP (1.5%, 4%, 4% w/w) exhibited significantly higher encapsulation efficiency (94.15%) and provided appropriate LR encapsulation in SEM image. Three saffron milk desserts (SMD) containing free LR (FLR), microencapsulated LR (MLR), and a control (C) were prepared, followed by physicochemical and microbiological assessments of the samples. The result showed that at the end of storage, SMD had the lowest pH (6.21), the highest acidity (30°D), and maintained the permissible limit of probiotic bacteria (6.7 log cfu/mL) among the samples. In GI, the MLR and FLR survival rates were 43% and 45.4%, respectively on the 14th day of storage, respectively. The MLR hardness (313.70 g), adhesiveness (2.01 mJ), chewiness (9.36) and gumminess (58.8) had the greatest values among the samples. Moreover, SEM images showed a relatively denser structure for MLR. In conclusion, this study highlights the potential of CSM and CSP to protect probiotics, offering valuable insights for developing new functional foods with improved survival during storage and GI.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11606897PMC
http://dx.doi.org/10.1002/fsn3.4510DOI Listing

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