Chitosan for improved encapsulation of thyme aqueous extract in alginate-based microparticles

Ionotropic gelation is a low-cost, easy and green microencapsulation technique. However, the encapsulation of highly soluble compounds is challenging because of the wide loss of material into the external water phase by passive diffusion and the consequent low encapsulation efficiency. In this work...

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Veröffentlicht in:	International journal of biological macromolecules 2024-06, Vol.270, p.132493-132493, Article 132493
Hauptverfasser:	Diana, Giada, Candiani, Alessandro, Picco, Alice, Milanesi, Andrea, Stampini, Margherita, Bari, Elia, Torre, Maria Luisa, Segale, Lorena, Giovannelli, Lorella
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Sprache:	eng
Schlagworte:	Alginate microparticles alginates Aqueous extract Chitosan Encapsulation efficiency gelation microencapsulation particle size polymers thyme Thymus vulgaris
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container_title	International journal of biological macromolecules
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creator	Diana, Giada Candiani, Alessandro Picco, Alice Milanesi, Andrea Stampini, Margherita Bari, Elia Torre, Maria Luisa Segale, Lorena Giovannelli, Lorella
description	Ionotropic gelation is a low-cost, easy and green microencapsulation technique. However, the encapsulation of highly soluble compounds is challenging because of the wide loss of material into the external water phase by passive diffusion and the consequent low encapsulation efficiency. In this work an important increase of encapsulation efficiency for Thymus vulgaris L. aqueous extract in alginate-based microparticles has been obtained. A formulation with the proper thyme extract/alginate ratio (30:70) was used as reference and then optimized by adding different co-carrier excipients. Microparticles obtained by dropping a solution containing thyme extract and alginate into a chitosan/calcium-chloride/acid acetic solution lead to a high encapsulation efficiency (70.43 ± 5.28 %). After drying, microparticles had a particle size of 1096 ± 72 μm, 20.087 ± 1.487 % of extract content, 6.2 % of residual water, and showed a complete release of thyme extract within one hour. Combining alginate and chitosan as polymeric co-carrier was a valuable option for efficiently encapsulating an aqueous extract by ionotropic gelation.
doi_str_mv	10.1016/j.ijbiomac.2024.132493
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subjects	Alginate microparticles alginates Aqueous extract Chitosan Encapsulation efficiency gelation microencapsulation particle size polymers thyme Thymus vulgaris
title	Chitosan for improved encapsulation of thyme aqueous extract in alginate-based microparticles
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