Numerical study of the structural design influence on cartilage cell differentiation in mechanically stimulated hydrogel scaffolds using an FSI-based model.
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| Title: | Numerical study of the structural design influence on cartilage cell differentiation in mechanically stimulated hydrogel scaffolds using an FSI-based model. |
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| Authors: | Azizi P; Chair of Microfluidics, Faculty of Mechanical Engineering and Marine Technology, University of Rostock, Rostock, Germany. pedram.azizi@uni-rostock.de.; Chair of Electromagnetic Field Theory, Faculty of Computer Science and Electrical Engineering, Institute of General Electrical Engineering, University of Rostock, Rostock, Germany. pedram.azizi@uni-rostock.de., Drobek C; Chair of Microfluidics, Faculty of Mechanical Engineering and Marine Technology, University of Rostock, Rostock, Germany., Seitz H; Chair of Microfluidics, Faculty of Mechanical Engineering and Marine Technology, University of Rostock, Rostock, Germany.; Department of Life, Light and Matter, University of Rostock, Rostock, Germany. |
| Source: | Biomechanics and modeling in mechanobiology [Biomech Model Mechanobiol] 2025 Aug; Vol. 24 (4), pp. 1417-1433. Date of Electronic Publication: 2025 Jun 15. |
| Publication Type: | Journal Article |
| Journal Info: | Publisher: Springer Country of Publication: Germany NLM ID: 101135325 Publication Model: Print-Electronic Cited Medium: Internet ISSN: 1617-7940 (Electronic) Linking ISSN: 16177940 NLM ISO Abbreviation: Biomech Model Mechanobiol Subsets: MEDLINE |
| Database: | MEDLINE Ultimate |
| FullText | Text: Availability: 0 |
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| Header | DbId: mdl DbLabel: MEDLINE Ultimate An: 40518480 AccessLevel: 2 PubType: Academic Journal PubTypeId: academicJournal PreciseRelevancyScore: 0 |
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| Items | – Name: Title Label: Title Group: Ti Data: Numerical study of the structural design influence on cartilage cell differentiation in mechanically stimulated hydrogel scaffolds using an FSI-based model. – Name: Author Label: Authors Group: Au Data: <searchLink fieldCode="AU" term="%22Azizi+P%22">Azizi P</searchLink>; Chair of Microfluidics, Faculty of Mechanical Engineering and Marine Technology, University of Rostock, Rostock, Germany. pedram.azizi@uni-rostock.de.; Chair of Electromagnetic Field Theory, Faculty of Computer Science and Electrical Engineering, Institute of General Electrical Engineering, University of Rostock, Rostock, Germany. pedram.azizi@uni-rostock.de.<br /><searchLink fieldCode="AU" term="%22Drobek+C%22">Drobek C</searchLink>; Chair of Microfluidics, Faculty of Mechanical Engineering and Marine Technology, University of Rostock, Rostock, Germany.<br /><searchLink fieldCode="AU" term="%22Seitz+H%22">Seitz H</searchLink>; Chair of Microfluidics, Faculty of Mechanical Engineering and Marine Technology, University of Rostock, Rostock, Germany.; Department of Life, Light and Matter, University of Rostock, Rostock, Germany. – Name: TitleSource Label: Source Group: Src Data: <searchLink fieldCode="JN" term="%22101135325%22">Biomechanics and modeling in mechanobiology</searchLink> [Biomech Model Mechanobiol] 2025 Aug; Vol. 24 (4), pp. 1417-1433. <i>Date of Electronic Publication: </i>2025 Jun 15. – Name: TypePub Label: Publication Type Group: TypPub Data: Journal Article – Name: TitleSource Label: Journal Info Group: Src Data: <i>Publisher: </i><searchLink fieldCode="PB" term="%22Springer%22">Springer </searchLink><i>Country of Publication: </i>Germany <i>NLM ID: </i>101135325 <i>Publication Model: </i>Print-Electronic <i>Cited Medium: </i>Internet <i>ISSN: </i>1617-7940 (Electronic) <i>Linking ISSN: </i><searchLink fieldCode="IS" term="%2216177940%22">16177940 </searchLink><i>NLM ISO Abbreviation: </i>Biomech Model Mechanobiol <i>Subsets: </i>MEDLINE |
| PLink | https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=mdl&AN=40518480 |
| RecordInfo | BibRecord: BibEntity: Identifiers: – Type: doi Value: 10.1007/s10237-025-01976-1 Languages: – Code: eng Text: English PhysicalDescription: Pagination: StartPage: 1417 Titles: – TitleFull: Numerical study of the structural design influence on cartilage cell differentiation in mechanically stimulated hydrogel scaffolds using an FSI-based model. Type: main BibRelationships: HasContributorRelationships: – PersonEntity: Name: NameFull: Azizi P – PersonEntity: Name: NameFull: Drobek C – PersonEntity: Name: NameFull: Seitz H IsPartOfRelationships: – BibEntity: Dates: – D: 01 M: 08 Text: 2025 Aug Type: published Y: 2025 Identifiers: – Type: issn-electronic Value: 1617-7940 Numbering: – Type: volume Value: 24 – Type: issue Value: 4 Titles: – TitleFull: Biomechanics and modeling in mechanobiology Type: main |
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