cris.boxmetadata.label.title
Porous matrix of calcium alginate/gelatin with enhanced properties as scaffold for cell culture
cris.boxmetadata.label.dateissued
01 browse.startsWith.months.june 2015
cris.boxmetadata.label.accesslevel
metadata only access
cris.boxmetadata.label.resourcetype
journal article
cris.boxmetadata.label.authors
CUADROS CASTILLO DE MEDINA, TERESA ROSS MERY
Erices A.
Aguilera J.
Pontificia Universidad Católica de Chile
cris.boxmetadata.label.publisher
Elsevier Ltd
cris.boxmetadata.label.abstract
Hydrophilic polysaccharides can be used to prepare porous matrices with a range of possible applications. One such application involves acting as scaffolds for cell culture. A new homogeneous and highly porous biopolymeric porous matrix (BPM) of calcium alginate/gelatin was produced by following a simple process. The key to this process was the selection of the porogen (aerated gelatin). The preparation technique comprises the following steps: incorporating the porogen into the solution of alginate (3%), molding, cross-linking the alginate in 1.41% CaCl2 (maximum gel strength; Cuadros et al., 2012. Carbohydr. Polym. 89, 1198-1206), molding, leaching and lyophilization. Cylinders of BPM were shown to have a relative density of 0.0274±0.002, porosity of 97.26±0.18%, an average internal pore size of 204±58μm and enhanced mechanical properties, while imbibing more than 11 times their dry weight in water. In vitro cell culture testing within BPM using mesenchymal stem cells was demonstrated by MTT assays and expression of alkaline phosphatase. The BPM provided a suitable microenvironment for seeding, adhesion, proliferation and osteogenic differentiation of cells. The preparation technique and resulting porous matrix represent potential tools for future study and further applications.
cris.boxmetadata.label.citationstartpage
331
cris.boxmetadata.label.citationendpage
342
cris.boxmetadata.label.volume
46
cris.boxmetadata.label.language
English
cris.boxmetadata.label.ocdeknowledgeArea
Biotecnología industrial
cris.boxmetadata.label.subjects
cris.boxmetadata.label.doi
cris.boxmetadata.label.scopusidentifier
2-s2.0-84938568939
cris.boxmetadata.label.pubmedidentifier
cris.boxmetadata.label.source
Journal of the Mechanical Behavior of Biomedical Materials
cris.boxmetadata.label.containerissn
17516161
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Directorio de Producción Científica
Scopus