A tissue engineered 3D printed calcium alkali phosphate bioceramic bone graft enables vascularization and regeneration of critical-size discontinuity bony defects in vivo

A tissue engineered 3D printed calcium alkali phosphate bioceramic bone graft enables vascularization and regeneration of critical-size discontinuity bony defects in vivo

Introduction: Recently, efforts towards the development of patient-specific 3D printed scaffolds for bone tissue engineering from bioactive ceramics have continuously intensified. For reconstruction of segmental defects after subtotal mandibulectomy a suitable tissue engineered bioceramic bone graft...

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Main Authors: Knabe, Christine, Stiller, Michael, Kampschulte, Marian, Wilbig, Janka, Peleska, Barbara, Günster, Jens, Gildenhaar, Renate, Berger, Georg, Rack, Alexander, Linow, Ulf, Heiland, Max, Rendenbach, Carsten, Koerdt, Steffen, Steffen, Claudius, Houshmand, Alireza, Xiang-Tischhauser, Li, Adel-Khattab, Doaa
Format: Article
Language:English
Published: Philipps-Universität Marburg 2023
Subjects:
angio-μCT
3D printed scaffold
calcium alkali orthophosphates
segmental discontinuity bone defects
angiogenesis
bone tissue engineering
bioactive ceramics
bone repair
Medizin
Medical sciences Medicine
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Call Number: urn:nbn:de:hebis:04-es2024-04252
Publication Date: 2024-01-17
Source: Erstveröffentlichung: Knabe C, Stiller M, Kampschulte M, Wilbig J, Peleska B, Günster J, Gildenhaar R, Berger G, Rack A, Linow U, Heiland M, Rendenbach C, Koerdt S, Steffen C, Houshmand A, Xiang-Tischhauser L and Adel-Khattab D (2023), A tissue engineered 3D printed calcium alkali phosphate bioceramic bone graft enables vascularization and regeneration of critical-size discontinuity bony defects in vivo. Front. Bioeng. Biotechnol. 11:1221314. https://doi.org/10.3389/fbioe.2023.1221314
Downloads: 43 (2024)
License: https://creativecommons.org/licenses/by/4.0
Access URL: https://archiv.ub.uni-marburg.de/es/2024/0425
https://doi.org/10.3389/fbioe.2023.1221314

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