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Polymeric Scaffolds for Tissue Engineering
2023The manufacture of three dimensional polymeric scaffolds for the regeneration of tissues and the materials that these structures are constructed from is an area of intense research.In this study, a preliminary investigation into the phase separation behaviour and suitability of a novel polyurethane (PU), poly(lactic-co-glycolic acid) (PLGA) and ...
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Scaffolds for Tissue Engineering of Cartilage
Critical Reviews™ in Eukaryotic Gene Expression, 2002Articular cartilage lesions resulting from trauma or degenerative diseases are commonly encountered clinical problems. It is well-established that adult articular cartilage has limited regenerative capacity, and, although numerous treatment protocols are currently employed clinically, few approaches exist that are capable of consistently restoring long-
T B F, Woodfield +4 more
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Injectable scaffolds for tissue regeneration
Journal of Materials Chemistry, 2004AbstractFor Abstract see ChemInform Abstract in Full Text.
Qingpu Hou +2 more
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3D Polymer Scaffolds for Tissue Engineering
Nanomedicine, 2006This review discusses some of the most common polymer scaffold fabrication techniques used for tissue engineering applications. Although the field of scaffold fabrication is now well established and advancing at a fast rate, more progress remains to be made, especially in engineering small diameter blood vessels and providing scaffolds that can support
Seunarine K +5 more
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2002
The treatment of diseased or injured arteries has been a key area of contemporary surgery and a focus of intensive research for more than one hundred years. The interposition of a jugular vein segment into the carotid artery, conducted by Carrel as early as 1908 [1], initiated the use of veins for the replacement of artery sections.
D. Cohn, G. Marom
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The treatment of diseased or injured arteries has been a key area of contemporary surgery and a focus of intensive research for more than one hundred years. The interposition of a jugular vein segment into the carotid artery, conducted by Carrel as early as 1908 [1], initiated the use of veins for the replacement of artery sections.
D. Cohn, G. Marom
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Scaffolds for Tissue Engineering
MRS Bulletin, 2003AbstractDevices for tissue engineering comprise scaffolds with the appropriate chemistry and architecture to promote cell infiltration and colonization. The scaffold is designed with biology in mind, and thus the architecture and chemistry differ according to tissue type.
Jeffrey M. Karp +2 more
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Scaffolds for Tissue Engineering
2012The aim of tissue engineering is to develop cell, construct, and living system technologies to restore the structures and functions of damaged or degenerated tissues. Surgical strategies that have evolved to deal with tissue loss include organ transplantation from one individual to another, tissue transfer from a healthy site to an affected site in the
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Scaffolding In Tissue Engineering
2005SCAFFOLDING MATERIALS Biologically Active Scaffolds based on Collagen-GAG Copolymers Ioannis V. Yannas Alginate for Tissue Engineering Peter X. Ma Polysaccharides Scaffolds for Tissue Engineering Tirtsa Ehrenfreund-Kleinman, Jacob Golenser, and Abraham J.
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