Please use this identifier to cite or link to this item: http://hdl.handle.net/1822/56618

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dc.contributor.authorRamos, Philippe E.por
dc.contributor.authorCerqueira, Miguel Ângelo Parente Ribeiropor
dc.contributor.authorCook, Michaelpor
dc.contributor.authorCharalampopoulos, Dimitrispor
dc.contributor.authorKhutoryanskiy, Vitaliy V.por
dc.contributor.authorTeixeira, J. A.por
dc.contributor.authorVicente, A. A.por
dc.date.accessioned2018-10-29T09:39:19Z-
dc.date.available2018-10-29T09:39:19Z-
dc.date.issued2014-10-15-
dc.identifier.citationRamos, Philippe E.; Cerqueira, Miguel A.; Cook, Michael; Charalampopoulos, Dimitris; Khutoryanskiy, Vitaliy V.; Teixeira, José A.; Vicente, António A., Layer-by-layer microcarrier production and characterization as a model to probiotics microencapsulation. 1st Congress on Food Structure Design. Porto, Portugal, 15-17 Oct, 77-77, 2014. ISBN: 978-989-97478-5-2por
dc.identifier.isbn978-989-97478-5-2por
dc.identifier.urihttp://hdl.handle.net/1822/56618-
dc.description.abstractThe recommended daily intake of folate (B-complex vitamin) for an adult varies between 200 and 400 g, being the intake of folate inefficient due its extremely unstable chemical forms. One of the presented solutions is the in situ production using probiotics. However, two concerns exist for this solution: a) probiotic bacteria may need protection towards the gastric medium (encapsulation); and b) microcapsule sizes should be smaller than 100 m, to avoid modifying food texture. Alginate-based microcapsules were produced and three layers were added using the layer-by-layer technique: 1st - poly-L-lysine (0.1%); 2nd - sodium alginate (1%); 3rd - chitosan (0.03%). Confocal microscopy was used to confirm the consequent adhesion of the layers, and if they were in the correct position (the layers labelled were the first (Poly-l-lysine/FITC) and the third layer (Chitosan/Rhodamine). After production the particles where put into a 10 mL solution of KCl-HCl (pH 2) during 1 hour, at 100 rpm and then into a PBS solution (pH 7.2), during 3 hours in order to mimic the gastrointestinal tract during digestion. The average size of the particles was 21.01 ± 0.493 m and 39.84 ± 0.794 m during the process at pH 2 and at pH 7.2, respectively. The sizes were smaller than 100 m and showed a swelling capacity (particles duplicate their size upon passing from pH 2 to pH 7.2). Confocal images showed the adhesion of the different layers, also proving indirectly the existence of the second layer (not labelled). Further, after the contact with the KCl-HCl (pH 2) and PBS (7.2) media, the structure of the capsules with the layers was maintained, thus showing the robustness of this structure at pH values typical of the gastrointestinal system. Alginate microcapsules production through LbL technique showed potential for encapsulation of probiotics, allowing their protection against harsh conditions in gastrointestinal tract.por
dc.language.isoengpor
dc.rightsopenAccesspor
dc.subjectProbioticspor
dc.subjectFolatepor
dc.subjectmicroencapsulationpor
dc.subjectlayer-by-layerpor
dc.titleLayer-by-layer microcarrier production and characterization as a model to probiotics microencapsulationpor
dc.typeconferenceAbstractpor
dc.peerreviewedyespor
dc.relation.publisherversionhttps://www.skyros-congressos.pt/foodstructure/por
dc.commentsCEB49041por
oaire.citationStartPage77por
oaire.citationEndPage77por
oaire.citationConferencePlacePorto, Portugalpor
dc.date.updated2018-10-28T21:14:01Z-
dc.description.publicationversioninfo:eu-repo/semantics/publishedVersionpor
sdum.conferencePublication1st Congress on Food Structure Designpor
Appears in Collections:CEB - Resumos em Livros de Atas / Abstracts in Proceedings

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