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| dc.contributor.author | Cortés Camargo, Stefani
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| dc.contributor.author | Román Guerrero, Angélica
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| dc.contributor.author | Alvarez Ramírez, José
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| dc.contributor.author | Alpizar Reyes, Erik
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| dc.contributor.author | Velázquez Gutiérrez, Sandra Karina
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| dc.contributor.author | Pérez Alonso, César
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| dc.date.accessioned | 2023-06-14T00:27:57Z | |
| dc.date.available | 2023-06-14T00:27:57Z | |
| dc.date.issued | 2023-06-01 | |
| dc.identifier.issn | 2666-8939 | |
| dc.identifier.uri | http://hdl.handle.net/20.500.11799/138530 | |
| dc.description | The results obtained in this study bring useful information about the use of TSM as a filler agent for improving the functional properties of SA based hydrogel beads as carriers and protecting agents for SO. TSM showed to be effective as a structural support that promotes the formation of more robust and complex networks when producing hydrogel beads by ionic gelation. The encapsulation and release properties of resulted enhanced when TSM was added to the hydrogel formulations, opening new alternatives in the selection, design, and use of non conventional wall materials suitable to satisfy a great variety of industrial applications. Despite the TSM content on the SA-TSM beads, all the systems exhibited ellipsoidal-like geometry, a more homogeneous structure with a less cracking and smoother surface, but larger particle size. Retardation on the SO transport and release from the core to the surface of the beads was modulated by the TSM content in the SA-based hydrogels, better encapsulation efficiencies and retarded released profiles could be associated with the high protein content associated with the TSM molecule. The release profiles of SO from the SA-based hydrogels displayed two main regions, the first one with a “burst effect” where a substantial percentage of SO was rapidly released, and a quasi-constant release profile related to a sustained SO release. According to the results, the encapsulation of SO in SA-TSM blends as wall materials in encapsulation systems formed by ionic gelation had better structural and physical properties compared to those formed only with SA. | es |
| dc.description.abstract | Ionic gelation of alginate has become one of the most widely used encapsulation techniques, with the main drawback that alginate hydrogels exhibit highly porous structural networks, which promotes high rates of release of encapsulated core materials. To retard the diffusion and loss of oil, and in turn to develop new alternatives as wall materials, this work aims to analyze the effect of structural properties of hydrogel beads prepared with sodium alginate (SA) and two blends of SA - tamarind seed mucilage (SA-TSM) as wall materials, in the release profiles of sesame oil (SO) encapsulated by ionic gelation. Three emulsions were formed using SA, or SA-TSM blends in mass ratios 1:1 and 1:2, with an SO dispersed phase fraction of 0.02 and mass ratio of wall mate rial:SO 1:1. The resulting emulsions were dropped into a 2.5 % wt. CaCl2 solution to produce three different systems of hydrogel beads. They were characterized by their morphology, size, physical properties, oil encap sulation, swelling, and release performance. According to the results obtained, the hydrogel beads showed an ellipsoidal-like geometry with a mean size of ~2.46 mm. SA-TSM hydrogel beads showed higher encapsulation efficiency (> 73.45%) than SA beads (61.49%). The kinetic curves of SO release showed two regions: a “burst effect” at short times followed by a "lag time" release. The Korsmeyer-Peppas model performed the best fit (R2 > 0.90) for the release of SO, indicating a diffusion-controlled Fickian transport mechanism for all the beads, the effective diffusion coefficients ranged from 5.18 × 10− 11 to 6.46 × 10− 11 m2 /s. Therefore, TSM directly in fluences the structural and physical properties of SA-TSM hydrogel beads, demonstrating efficient structural support and filler function in the formation of wall materials, improving the encapsulation and controlling the release rate of SO in comparison with SA hydrogel beads. | es |
| dc.description.sponsorship | The authors wish to acknowledge the partial financial support of this research to the Universidad Autonoma del Estado de México through grant 6661/2022SF. | es |
| dc.language.iso | eng | es |
| dc.publisher | Carbohydrate Polymer Technologies and Applications | es |
| dc.rights | openAccess | es |
| dc.rights.uri | http://creativecommons.org/licenses/by-nc-nd/4.0 | es |
| dc.subject | Sesame oil | es |
| dc.subject | ionic gelation | es |
| dc.subject | hydrogel beads | es |
| dc.subject | release profiles | es |
| dc.subject | structural support | es |
| dc.subject | tamarind mucilage | es |
| dc.subject.classification | INGENIERÍA Y TECNOLOGÍA | es |
| dc.title | Microstructural influence on physical properties and release profiles of sesame oil encapsulated into sodium alginate-tamarind mucilage hydrogel beads | es |
| dc.type | Artículo | es |
| dc.provenance | Científica | es |
| dc.road | Dorada | es |
| dc.organismo | Química | es |
| dc.ambito | Internacional | es |
| dc.cve.CenCos | 20401 | es |
| dc.relation.vol | 5 | |
| dc.relation.doi | https://doi.org/10.1016/j.carpta.2023.100302 |
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