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In vitro characterization of a nanostructured fibrin agarose bio-artificial nerve substitute.

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dc.contributor.authorCarriel, Víctor
dc.contributor.authorScionti, Giuseppe
dc.contributor.authorCampos, Fernando
dc.contributor.authorRoda, Olga
dc.contributor.authorCastro, Begoña
dc.contributor.authorCornelissen, Maria
dc.contributor.authorGarzon, Ingrid
dc.contributor.authorAlaminos, Miguel
dc.contributor.funderSpanish Plan Nacional de Investigación Científica, Desarrollo e Innovación Tecnológica (I+D+i) from the National Ministry of Economy and Competitiveness (Instituto de Salud Carlos III)
dc.date.accessioned2023-01-25T08:31:38Z
dc.date.available2023-01-25T08:31:38Z
dc.date.issued2015-04-29
dc.description.abstractNeural tissue engineering is focused on the design of novel biocompatible substitutes to repair peripheral nerve injuries. In this paper we describe a nanostructured fibrin-agarose bioartificial nerve substitute (NFABNS), based on nanostructured fibrin-agarose hydrogels (FAHs) with human adipose-derived mesenchymal stem cells (HADMSCs). These NFABNSs were mechanically characterized and HADMSCs behaviour was evaluated using histological and ultrastructural techniques. Mechanical characterization showed that the NFABNSs were resistant, flexible and elastic, with a high deformation capability. Histological analyses carried out in vitro during 16 days revealed that the number of HADMSCs decreased over time, with a significant increase after 16 days. HADMSCs formed cell clusters and degraded the surrounding scaffold during this time; additionally, HADMSCs showed active cell proliferation and cytoskeletal remodelling, with a progressive synthesis of extracellular matrix molecules. Finally, this study demonstrated that it is possible to generate biologically active and mechanically stable tissue-like substitutes with specific dimensions, based on the use of HADMSCs, FAHs and a nanostructure technique. However, in vivo analyses are needed to demonstrate their potential usefulness in peripheral nerve repair. Copyright © 2015 John Wiley & Sons, Ltd.
dc.description.versionSi
dc.identifier.citationCarriel V, Scionti G, Campos F, Roda O, Castro B, Cornelissen M, et al. In vitro characterization of a nanostructured fibrin agarose bio-artificial nerve substitute. J Tissue Eng Regen Med. 2017 May;11(5):1412-1426.
dc.identifier.doi10.1002/term.2039
dc.identifier.essn1932-7005
dc.identifier.pmid26177604
dc.identifier.unpaywallURLhttps://upcommons.upc.edu/bitstream/2117/115898/1/NFABNS_revised.pdf
dc.identifier.urihttp://hdl.handle.net/10668/9972
dc.issue.number5
dc.journal.titleJournal of tissue engineering and regenerative medicine
dc.journal.titleabbreviationJ Tissue Eng Regen Med
dc.language.isoen
dc.organizationInstituto de Investigación Biosanitaria ibs. GRANADA
dc.page.number1412-1426
dc.provenanceRealizada la curación de contenido 27/08/2024
dc.publisherHindawi Limited
dc.pubmedtypeJournal Article
dc.relation.projectIDIPT-2011-0742-900000
dc.relation.projectIDFIS PI14-1343
dc.relation.publisherversionhttps://doi.org/10.1002/term.2039
dc.rights.accessRightsRestricted Access
dc.subjectadipose-derived mesenchymal stem cells
dc.subjectbiomimetic nerve substitute
dc.subjectcell-biomaterial interactions
dc.subjectextracellular matrix
dc.subjectfibrin-agarose hydrogels
dc.subjectnanostructured biomaterials
dc.subjectneural tissue engineering
dc.subject.decsAndamios del tejido
dc.subject.decsCélulas madre mesenquimatosas
dc.subject.decsHumanos
dc.subject.decsNanoestructuras
dc.subject.decsNervios periféricos
dc.subject.decsSefarosa
dc.subject.decsTraumatismos de los nervios periféricos
dc.subject.meshHumans
dc.subject.meshMesenchymal Stem Cells
dc.subject.meshNanostructures
dc.subject.meshPeripheral Nerve Injuries
dc.subject.meshPeripheral Nerves
dc.subject.meshSepharose
dc.subject.meshTissue Scaffolds
dc.titleIn vitro characterization of a nanostructured fibrin agarose bio-artificial nerve substitute.
dc.typeresearch article
dc.type.hasVersionSMUR
dc.volume.number11
dspace.entity.typePublication

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