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Multifactorial approaches to enhance maturation of human iPSC-derived cardiomyocytes

dc.contributor.authorKistamás, Kornél
dc.contributor.authorMüller, Anna
dc.contributor.authorMuenthaisong, Suchitra
dc.contributor.authorLamberto, Federica
dc.contributor.authorZana, Melinda
dc.contributor.authorDulac, Martin
dc.contributor.authorLeal, Filipa
dc.contributor.authorMaziz, Ali
dc.contributor.authorCosta, Pedro
dc.contributor.authorBernotienė, Eiva
dc.contributor.authorBergaud, Christian
dc.contributor.authorDinnyés, András
dc.date.accessioned2023-12-22T07:06:21Z
dc.date.available2023-12-22T07:06:21Z
dc.date.issued2023
dc.identifier.issn0167-7322
dc.identifier.other(crossref_id)151638343
dc.identifier.urihttps://etalpykla.vilniustech.lt/xmlui/handle/123456789/153658
dc.description.abstractCardiovascular diseases are the leading cause of death worldwide. Several strategies – small molecules, gene therapy, surgeries, cardiac rehabilitation – have been developed to treat patients with cardiac disorders or to prevent the disease. A novel promising tool is the application of induced pluripotent stem cell-derived human cardiomyocytes; however, their clinical application is hampered by their fundamentally immature characteristics. Although several approaches were recently proven to support certain aspects of cardiac maturation, it has been discovered that any kind of stimulus itself is insufficient to induce proper maturation of these cardiomyocytes. Therefore, researchers have developed multifactorial approaches linking biotechnology, life sciences and material sciences toolsets. In this review, we summarise the current state-of-the-art methodologies in cardiac differentiation and maturation with the application of biocompatible materials and automated cell culture systems combined with various electrical, mechanical, topological, and biochemical stimuli.eng
dc.formatPDF
dc.format.extentp. 1-21
dc.format.mediumtekstas / txt
dc.language.isoeng
dc.relation.isreferencedbyScopus
dc.relation.isreferencedbyScience Citation Index Expanded (Web of Science)
dc.relation.isreferencedbyScienceDirect
dc.source.urihttps://www.sciencedirect.com/science/article/pii/S0167732223014721
dc.titleMultifactorial approaches to enhance maturation of human iPSC-derived cardiomyocytes
dc.typeStraipsnis Web of Science DB / Article in Web of Science DB
dcterms.accessRightsThis is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
dcterms.licenseCreative Commons – Attribution – 4.0 International
dcterms.references343
dc.type.pubtypeS1 - Straipsnis Web of Science DB / Web of Science DB article
dc.contributor.institutionBioTalentum Ltd.
dc.contributor.institutionBioTalentum Ltd. Hungarian University of Agriculture and Life Sciences
dc.contributor.institutionOSPIN GmbH
dc.contributor.institutionBiofabics Lda
dc.contributor.institutionLaboratory for Analysis and Architecture of Systems - French National Centre for Scientific Research (LAAS-CNRS)
dc.contributor.institutionValstybinis mokslinių tyrimų institutas Inovatyvios medicinos centras
dc.contributor.institutionBioTalentum Ltd. Hungarian University of Agriculture and Life Sciences University of Szeged
dc.subject.researchfieldN 010 - Biologija / Biology
dc.subject.researchfieldT 009 - Mechanikos inžinerija / Mechanical enginering
dc.subject.enhiPSC-CM
dc.subject.enhuman induced pluripotent stem cells
dc.subject.encardiomyocyte
dc.subject.enheart-on-a-chip
dc.subject.enelectrospun scaffolds
dc.subject.enbiocompatible materials
dcterms.sourcetitleJournal of molecular liquids
dc.description.volumevol. 387
dc.publisher.nameElsevier
dc.publisher.cityAmsterdam
dc.identifier.doi151638343
dc.identifier.doi1-s2.0-S0167732223014721
dc.identifier.doiS0167-7322(23)01472-1
dc.identifier.doi85165935669
dc.identifier.doi2-s2.0-85165935669
dc.identifier.doi1
dc.identifier.doiS0167732223014721
dc.identifier.doi001047538500001
dc.identifier.doi10.1016/j.molliq.2023.122668
dc.identifier.elaba178709571


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