Tissue-engineered scaffolds

Freed LE, Engehnayr GC, Borenstein JT et al (2009) Advanced material strategies for tissue engineering scaffolds. Adv Mater 21 3410-3418... [Pg.161]

PGA was one of the very first degradable polymers ever investigated for biomedical use. PGA found favor as a degradable suture, and has been actively used since 1970 [45 -7]. Because PGA is poorly soluble in many common solvents, limited research has been conducted with PGA-based drug delivery devices. Instead, most recent research has focused on short-term tissue engineering scaffolds. PGA is often fabricated into a mesh network and has been used as a scaffold for bone [48-51], cartilage [52-54], tendon [55, 56], and tooth [57]. [Pg.72]

Drury JL, Mooney DJ (2003) Hydrogels for tissue engineering scaffold design variables and applications. Biomaterials 24 4337-4351... [Pg.163]

Wu Z et al (2009) The use of phospholipase A(2) to prepare acellular porcine corneal stroma as a tissue engineering scaffold. Biomaterials 30(21) 3513-3522... [Pg.230]

Cloyd JM et al (2007) Material properties in unconfined compression of human nucleus pulposus, injectable hyaluronic acid-based hydrogels and tissue engineering scaffolds. Eur Spine J 16(11) 1892-1898... [Pg.230]

Yang Y, Dorsey SM, Becker ML, Lin-Gibson S, Schumacher GE, Flaim GM, Kohn J, Simon CG Jr (2008) X-ray imaging optimization of 3D tissue engineering scaffolds via combinatorial fabrication methods. Biomaterials 29 1901-1911... [Pg.103]

Torres, F. G., Boccaccini, A. R., Troncoso, O. P. (2006). Microwave processing of starch-based porous structures for tissue engineering scaffolds. J. Appl. Poly. ScL, 103(2), 1332-1339. [Pg.462]

All block copolymers were crosslinked to construct tissue engineering scaffolds using the method of Yaszemski et al. (1) as described below. [Pg.416]

Absorbable polyoxaesters containing pendant thio substituents, (IV), were prepared by the authors (4) and used in tissue engineering scaffolds and as drug delivery agents. [Pg.461]

Boden, N., Aggeli, A., Ingham, E., and Kirkham, J. Supramolecular Networks Made by Beta-Sheet Self-Assembly of Rationally Designed Peptides, and Their Uses as Industrial Fluids, Personal Care Products, Tissue Engineering Scaffolds and Drug Delivery Systems, 2003-GB3016 WO 2004007532 (2004). [Pg.8]

E. Sachlos and J. T. Czemuska, Making tissue scaffolds work. Review on the application of solid freeform fabrication technology to the production of tissue engineering scaffolds, Europ. Cells Mater. 5, 29-40 (2003). [Pg.227]

Biodegradable polymers have found other applications that have been commercialised or are under investigation. Anastomosis rings have been developed as an alternative to suturing for intestinal resection. Tissue staples have also replaced sutures in certain procedures. Other applications currently under scrutiny include ligating clips, vascular grafts, stents, and tissue engineering scaffolds. [Pg.99]

Z. Ma, M. Kotaki, R. Inai, S. Ramakrishna. 2005. Potential of nanofiber matrix as tissue engineering scaffolds. Tissue Eng, 11 pp.lOl. [Pg.143]

These polymers are of increasing utility and are good examples of the cellular requirement for water in tissue engineering scaffolds. Polypho-sphazenes are degradable polymers that have been functionalized with a variety of biomolecules such as peptides and growth factors. ... [Pg.92]

Norman JJ, Desai TA. Methods for fabrication of nanoscale topography for tissue engineering scaffolds. An Biomed Eng 2006 34 89-101. [Pg.719]

Biodegradable sutures, drug delivery systems, and tissue engineering scaffolds... [Pg.157]

Sutures, dressings, hemofiltration membranes Biodegradable tissue engineering scaffolds and devices... [Pg.157]

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