Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
11024892 | LWT - Food Science and Technology | 2019 | 32 Pages |
Abstract
This study aimed to optimize the spray drying process for the microencapsulation of Lactobacillus acidophilus La-5, using inulin as coating agent to increase its gastrointestinal survival. Moreover, the survival of the microencapsulated and the free microorganism incorporated or not in a synbiotic mousse to in vitro simulated gastrointestinal conditions was evaluated. Microencapsulation process conditions were optimized at 80â¯mL/min, 82%, and 10%, for feed flow, aspiration rate, and inulin concentration, respectively. Subsequently, a synbiotic diet mousse was produced with the addition both of the free and of the microencapsulated probiotic strain, and microorganism in vitro gastrointestinal resistance was evaluated. The lowest reduction of cell counts, after 6â¯h of the in vitro assays, occurred for mousse with microencapsulated cells (1.3 log cycles), followed by microencapsulated cells (2.0 log cycles), mousse with free cells (3.0 log cycles), and free cells (7.4 log cycles). Therefore, the spray drying process was appropriate to encapsulate the probiotic strain evaluated using inulin as coating agent and providing resistance to the microencapsulated microorganism. Moreover, the protection given by the microencapsulation process tested was further increased by the food product.
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Authors
Douglas Xavier dos Santos, Alessandro Alberto Casazza, Bahar Aliakbarian, Raquel Bedani, Susana Marta Isay Saad, Patrizia Perego,