Advancing collagen-based biomaterials for oral and craniofacial tissue regeneration

The oral and craniofacial region consists of various types of hard and soft tissues with the intricate organization. With the high prevalence of tissue defects in this specific region, it is highly desirable to enhance tissue regeneration through the development and use of engineered biomaterials. C...

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Veröffentlicht in:	Collagen and Leather 2023-12, Vol.5 (1), p.14, Article 14
Hauptverfasser:	Zhang, Bo, He, Yunxiang, Liu, Jialing, Shang, Jiaojiao, Chen, Chider, Wang, Tianyi, Chen, Mei, Li, Yifei, Gong, Guidong, Fang, Jie, Zhao, Zhihe, Guo, Junling
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Schlagworte:	Biocompatibility Biomedical materials Chemistry and Materials Science Collagen Collagen-based Materials Extraction procedures Leather Materials Engineering Materials Science Optimization Reconstruction Regeneration (physiology) Review Soft tissues Tanning Tissue engineering
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container_title	Collagen and Leather
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creator	Zhang, Bo He, Yunxiang Liu, Jialing Shang, Jiaojiao Chen, Chider Wang, Tianyi Chen, Mei Li, Yifei Gong, Guidong Fang, Jie Zhao, Zhihe Guo, Junling
description	The oral and craniofacial region consists of various types of hard and soft tissues with the intricate organization. With the high prevalence of tissue defects in this specific region, it is highly desirable to enhance tissue regeneration through the development and use of engineered biomaterials. Collagen, the major component of tissue extracellular matrix, has come into the limelight in regenerative medicine. Although collagen has been widely used as an essential component in biomaterial engineering owing to its low immunogenicity, high biocompatibility, and convenient extraction procedures, there is a limited number of reviews on this specific clinic sector. The need for mechanical enhancement and functional engineering drives intensive efforts in collagen-based biomaterials concentrating on therapeutical outcomes and clinical translation in oral and craniofacial tissue regeneration. Herein, we highlighted the status quo of the design and applications of collagen-based biomaterials in oral and craniofacial tissue reconstruction. The discussion expanded on the inspiration from the leather tanning process on modifications of collagen-based biomaterials and the prospects of multi-tissue reconstruction in this particular dynamic microenvironment. The existing findings will lay a new foundation for the optimization of current collagen-based biomaterials for rebuilding oral and craniofacial tissues in the future. Graphical Abstract
doi_str_mv	10.1186/s42825-023-00120-y
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The discussion expanded on the inspiration from the leather tanning process on modifications of collagen-based biomaterials and the prospects of multi-tissue reconstruction in this particular dynamic microenvironment. The existing findings will lay a new foundation for the optimization of current collagen-based biomaterials for rebuilding oral and craniofacial tissues in the future. 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The discussion expanded on the inspiration from the leather tanning process on modifications of collagen-based biomaterials and the prospects of multi-tissue reconstruction in this particular dynamic microenvironment. The existing findings will lay a new foundation for the optimization of current collagen-based biomaterials for rebuilding oral and craniofacial tissues in the future. 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subjects	Biocompatibility Biomedical materials Chemistry and Materials Science Collagen Collagen-based Materials Extraction procedures Leather Materials Engineering Materials Science Optimization Reconstruction Regeneration (physiology) Review Soft tissues Tanning Tissue engineering
title	Advancing collagen-based biomaterials for oral and craniofacial tissue regeneration
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