Effect of Encapsulated Probiotic Starter Culture on Rheological and Structural Properties of Natural Hydrogel Carriers Affected by Fermentation and Gastrointestinal Conditions

The suitability of natural hydrogel carriers with probiotic starter culture as whey beverages supplements was examined by assessing their rheological and structural changes during the fermentation and gastrointestinal conditions. Effect of encapsulated cells on the carrier structure is of great impo...

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Bibliographic Details
Published in:Food biophysics 2020-03, Vol.15 (1), p.18-31
Main Authors: Obradovic, Natasa, Pajic-Lijakovic, Ivana, Krunic, Tanja, Belovic, Miona, Rakin, Marica, Bugarski, Branko
Format: Article
Language:English
Subjects:
Alginates
Alginic acid
Analytical Chemistry
Beverages
Biological and Medical Physics
Biophysics
Cell culture
Cell viability
Chemistry
Chemistry and Materials Science
Chitosan
Coatings
Constitutive models
Encapsulation
Fermentation
Food Science
Hydrogels
Intestine
Loss modulus
Mechanical properties
Original Article
Probiotics
Rheological properties
Rheology
Starter cultures
Structure-function relationships
Whey
Yogurt
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Summary:The suitability of natural hydrogel carriers with probiotic starter culture as whey beverages supplements was examined by assessing their rheological and structural changes during the fermentation and gastrointestinal conditions. Effect of encapsulated cells on the carrier structure is of great importance for the selection of proper material for the preparation of functional supplements. The structural changes of the chitosan-coated alginate/whey carriers were considered based on (1) cell viability and the carrier average volume vs. time (2) the storage and loss modulus vs. time obtained under low oscillator strain conditions, (3) FTIR analysis and (4) SEM cross-sectional observation of the hydrogel carriers. The presence of chitosan coating and fermentation conditions increased cell viability up to 9.01 ± 0.18 (log CFU/g). According to our results, the encapsulated cells induce weakening of carriers under the gastric conditions but improve their mechanical stability under the intestinal condition. The mechanical behaviour of carriers was also considered in order to formulate the rheological constitutive model equation for describing the irreversible structural changes under the gastric and intestinal conditions. The cell leakage under the gastric condition after the 2 h was less than 5%. Carriers are rapidly degraded under the intestinal condition which ensures the release of cells and provides their beneficial effects on the host health. Our results indicate that this type of coated carrier is suitable to be used for encapsulation of probiotic starter culture in the production of fermented whey-based products.
ISSN:1557-1858
1557-1866
DOI:10.1007/s11483-019-09598-8