3D in vitro platform produced by two-photon polymerization for the analysis of neural network formation and function

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dc.identifier.uri http://dx.doi.org/10.15488/3490
dc.identifier.uri http://www.repo.uni-hannover.de/handle/123456789/3520
dc.contributor.author Timashev, P.S.
dc.contributor.author Vedunova, M.V.
dc.contributor.author Guseva, D.
dc.contributor.author Ponimaskin, E.
dc.contributor.author Deiwick, A.
dc.contributor.author Mishchenko, T.A.
dc.contributor.author Mitroshina, E.V.
dc.contributor.author Koroleva, A.V.
dc.contributor.author Pimashkin, A.S.
dc.contributor.author Mukhina, I.V.
dc.contributor.author Panchenko, V.Y.
dc.contributor.author Chichkov, Boris
dc.contributor.author Bagratashvili, Victor N.
dc.date.accessioned 2018-06-27T11:45:26Z
dc.date.available 2018-06-27T11:45:26Z
dc.date.issued 2016
dc.identifier.citation Timashev, P.S.; Vedunova, M.V.; Guseva, D.; Ponimaskin, E.; Deiwick, A. et al.: 3D in vitro platform produced by two-photon polymerization for the analysis of neural network formation and function. In: Biomedical Physics and Engineering Express 2 (2016), Nr. 3, 35001. DOI: https://doi.org/10.1088/2057-1976/2/3/035001
dc.description.abstract Zr-Si organic-inorganic scaffolds fabricated by a two-photon polymerization technique were used for the primary culture of mouse embryonic neural cells. We observed that dissociated hippocampal cells adhere to the scaffolds, produce neurites, elongate and differentiate into adult neurons. Neuronal outgrowth and synaptogenesis were confirmed by immunohistochemical staining with antibodies against βIII-Tubulin and synaptophysin. The formation of a functional neural network was assessed by the measurement of spontaneous activity using Ca2+ imaging of dissociated hippocampal cultures grown on Zr-Si scaffolds. The results of this study suggest that two-photon-induced polymerization of organic-inorganic hybrid biomaterials provides a robust model for 3D neuronal tissue engineering studies. eng
dc.language.iso eng
dc.publisher Bristol : Institute of Physics Publishing
dc.relation.ispartofseries Biomedical Physics and Engineering Express 2 (2016), Nr. 3
dc.rights CC BY 3.0 Unported
dc.rights.uri https://creativecommons.org/licenses/by/3.0/
dc.subject 3D neural cell culture eng
dc.subject Ca2+ imaging eng
dc.subject Dissociated hippocampal cultures eng
dc.subject Scaffold eng
dc.subject Two-photon polymerization eng
dc.subject beta tubulin eng
dc.subject betaIII tubulin eng
dc.subject silicon eng
dc.subject synaptophysin eng
dc.subject unclassified drug eng
dc.subject zirconium eng
dc.subject animal cell eng
dc.subject animal experiment eng
dc.subject Article eng
dc.subject cell adhesion eng
dc.subject controlled study eng
dc.subject dissociation eng
dc.subject hippocampus eng
dc.subject immunohistochemistry eng
dc.subject in vitro study eng
dc.subject mouse eng
dc.subject nerve cell differentiation eng
dc.subject nerve cell growth eng
dc.subject nerve cell network eng
dc.subject neurite eng
dc.subject nonhuman eng
dc.subject photon eng
dc.subject polymerization eng
dc.subject synaptogenesis eng
dc.subject tissue engineering eng
dc.subject tissue scaffold eng
dc.subject.ddc 610 | Medizin, Gesundheit ger
dc.title 3D in vitro platform produced by two-photon polymerization for the analysis of neural network formation and function
dc.type Article
dc.type Text
dc.relation.issn 2057-1976
dc.relation.doi https://doi.org/10.1088/2057-1976/2/3/035001
dc.bibliographicCitation.issue 3
dc.bibliographicCitation.volume 2
dc.bibliographicCitation.firstPage 035001
dc.description.version publishedVersion
tib.accessRights frei zug�nglich


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