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Ligament tissue engineering

Hayami JWS et al (2010) Design and characterization of a biodegradable composite scaffold for ligament tissue engineering. J Biomed Mater Res A 92A(4) 1407-1420... [Pg.208]

T. Funakoshi, T. Majima, N. Iwasaki, S. Yamane, T. Masuko, A. Minami, et al.. Novel chitosan-based hyaluronan hybrid polymer fibers as a scaffold in ligament tissue engineering, J. Biomed. Mater. Res. A 74A (2005) 338-346. [Pg.113]

Sahoo S, Ouyang H, Goh JC, Tay TE and Toh SL, Characterization of a novel polymeric scaffold for potential application in tendon/ligament tissue engineering. Tissue Eng. 2006 12 91-99. [Pg.638]

Ge Z, Yang F, Goh J CH, Ramakrishna S and Lee EH. Biomaterials and scaffolds for ligament tissue engineering. J Biomed Mat Res. 2006 77 639-652. Majima T, Funakosi T, Iwasaki N et al. Alginate and chitosan polyion complex hybrid fibers for scaffolds in ligament and tendon tissue engineering. 7 Orthop Sci. 2005 10 302-307. [Pg.638]

Laurencin CT and Freeman JW. Ligament tissue engineering an evolutionary materials sdence approach. Biomaterials. 2005 26 7530-7536. [Pg.638]

Kuo CK, Marturano JE, Tuan RS (2010) Novel strategies in tendon and ligament tissue engineering advanced biomaterials and regeneration motifs. Sports Med Arthrosc Rehabil Ther Technol 2 20... [Pg.360]

EPCs have been reported to play an important role for pathophysiological neovascularization in various ischemic tissues, and they also have the therapeutic potential to facilitate tissue repair/regeneration and modulate the regenerating environment. We confirmed that bone marrow-derived EPCs may craitribute to the tissue repair by augmenting neovascularization following spinal cord injury, thus we think that these cells can be applied to the ligament tissue engineering in the future [53]. [Pg.555]

Benhardt H, et al. Synthesis of coUagenase-sensitive polyureas for ligament tissue engineering. Macromol Biosci 2011 11(8) 1020-30. [Pg.19]

Liu, H., Fan, H., Wang, Y., Toh, S.L., Goh, J.C., 2008b. The interaction between a combined knitted silk scaffold and micropoiDus silk sponge with human mesenchymal stem cells for ligament tissue engineering. Biomaterials 29, 662—674. [Pg.419]

Heckmarm, D., Schletiker, H. J., Fiedler, I, Brenner, R., Dauner, M., Bergenthal, G., Mattes, T, Claes, D., Ignatius, A. (2007). Human mesenchymal progenitor cell responses to a novel textured poly(D-lactide) scaffold for ligament tissue engineering. J Biomed Mater Res, PartB, Appl Biomaterial, 81, 82-90. [Pg.178]

Benhardt, H.A. and Cosgriff-Hernandez, E.M. 2009. The role of mechanical loading in ligament tissue engineering. Tissue Eng Part B Rev 15(4) 467-75. [Pg.418]

Tendon/Ligament Tissue Engineering Bioreactor Design... [Pg.425]

Principles Tendon and Ligament Tissue Engineering Bioreactor Limitations and Challenges... [Pg.425]

Chen, J., R. L. Horan, D. Bramono et al. 2006. Monitoring mesenchymal stromal cell developmental stage to apply on-time mechanical stimulation for ligament tissue engineering. Tissue Engineering 12(11) 3085-3095. [Pg.588]

Freeman, J. W. and A. L. Kwansa. 2008. Recent advancements in ligament tissue engineering The use of various techniques and materials for ACL repair. Recent Patents on Biomedical Engineering 1(1) 18-23. [Pg.589]

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See also in sourсe #XX -- [ Pg.39 , Pg.201 ]



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