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生物加工与生物技术杂志

Microencapsulation of Bovine Vaginal Lactobacilli in Alginate Using Emulsion-gelation: Freeze-drying, Storage and Antimicrobial Activity

Abstract

Ale CE, Torres Luque A, Gonzalez Moreno C and Otero MC*

Probiotics containing autochthonous Lactic Acid Bacteria (LAB) as local treatment in the Bovine Reproductive Tract (BRT) was proposed as a sustainable alternative to prevent outcome of pathogens colonization in the postpartum uterus in cows. Microencapsulation of these LABs could improve their survival during stressing conditions and promote the intimate contact between the veterinarian form and the vaginal mucosa. In this work, emulsion-ionic gelation technique was applied to encapsulate bovine LAB strains in an alginate (3%) matrix. Optical and scanning electron microscopic evaluations showed spheroidal particles (12-48 μm) with a fully charge of LAB; the average load ranged 8.98 ± 0.15 to 8.06 ± 0.21 log CFU/g. The microencapsulated lactic acid bacteria (LAB-MCs) stability was evaluated during lyophilization [in Skim Milk (SM), or Neutral Distilled Water (NDW)] and storage (at 4°C up to 90 days). SM represented a significant high protection to the lyophilization. Also, the alginate microencapsulation improved the LAB strain resistance when freeze-dried in water, comparing to known sensibility of LAB free cells. L. gasseri CRL 1412 showed similar resistance in both, NDW (0.70 ± 0.05) and SM (0.72 ± 0.05); and their microcapsules (MCs) exhibited antagonistic activity against E. coli 99/14 (pathogen from Bovine metritis) when cultured together; contrary, in co-culture with empty-MCs no inhibition was observed. To evaluate the microencapsulation process, different parameters were estimated: Encapsulation Factor (EF) (ranged between 0.76 ± 0.03 and 0.85 ± 0.08) and Encapsulating Efficiency (EE) (average EE%=75%) none significant differences (LSDFisher test, P<0.05) were observed between LAB strains. Taking account the weight of the materials, the calculated average yield was 50.5%. The standardized encapsulation conditions allowed selected L. gasseri CRL 1412-MCs as potential systems to be included in formulations to restore vaginal microbiota to prevent metritis in cows.

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