In vitro survival of Bifidobacterium bifidum microencapsulated in zein-coated alginate hydrogel microbeads

The Bifidobacterium bifidum susceptibility in gastrointestinal conditions and storage stability limit its use as potential probiotics. The current study was design to encapsulate B. bifidum using sodium alginate (SA, 1.4% w/v) and different concentration of zein as coating material, that is, Z 1 (1%...

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Bibliographic Details
Published in:Journal of microencapsulation 2019-02, Vol.36 (2), p.192-203
Main Authors: Riaz, Tahreem, Iqbal, Muhammad Waheed, Saeed, Muhammad, Yasmin, Iqra, Hassanin, Hinawi A. M., Mahmood, Shahid, Rehman, Abdur
Format: Article
Language:English
Subjects:
Bifidobacterium bifidum
coating
microencapsulation
survival
Zein
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Summary:The Bifidobacterium bifidum susceptibility in gastrointestinal conditions and storage stability limit its use as potential probiotics. The current study was design to encapsulate B. bifidum using sodium alginate (SA, 1.4% w/v) and different concentration of zein as coating material, that is, Z 1 (1% w/v), Z 2 (3% w/v), Z 3 (5% w/v), Z 4 (7% w/v), Z 5 (9% w/v). The resultant microbeads were further investigated for encapsulation efficiency, survival in gastrointestinal conditions, release profile in intestinal fluid, storage stability and morphological characteristics. The highest encapsulation efficiency (94.56%) and viable count (>10 7 log CFU/g) was observed in Z 4 (7% w/v). Viable cell count of B. bifidum was >10 6 log CFU/g in all the zein-coated microbeads as compare to free cells (10 3 log CFU/g) and SA (10 5 log CFU/g) at 4 °C after 32 days of storage. Therefore, B. bifidum encapsulated in zein-coated alginate microbeads present improved survival during gastric transit and storage.
ISSN:0265-2048
1464-5246
DOI:10.1080/02652048.2019.1618403