Biomedical Engineering Reference
In-Depth Information
8. Ma, P.X., Choi, J.W.: Biodegradable polymer scaffolds with well-defined interconnected
spherical pore network. Tissue Eng. 7(1), 23-33 (2001)
9. Hollister, S.J.: Porous scaffold design for tissue engineering. Nat. Mater. 4(7), 518-524
(2005)
10. Yang, S., Leong, K.-F., Du, Z., Chua, C.K.: The design of scaffolds for use in tissue
engineering. part I. traditional factors. Tissue Eng. 7(6), 679-689 (2001)
11. Levenberg, S., Rouwkema, J., Macdonald, M., Garfein, E.S., Kohane, D.S., Darland, D.C.,
et al.: Engineering vascularized skeletal muscle tissue. Nat. Biotechnol. 23(7), 879-884 (2005)
12. Levenberg, S., Huang, N.F., Lavik, E., Rogers, A.B., Itskovitz-Eldor, J., Langer, R.:
Differentiation of human embryonic stem cells on three-dimensional polymer scaffolds.
PNAS 100(22), 12741-12746 (2003)
13. Peters, M.C., Polverini, P.J., Mooney, D.J.: Engineering vascular networks in porous polymer
matrices. J. Biomed. Mater. Res. 60(4), 668-678 (2002)
14. Egana, J.T., Fierro, F.A., Krueger, S., Bornhaeuser, M., Huss, R., Lavandero, S., et al.: Use of
human mesenchymal cells to improve vascularization in a mouse model for scaffold-based
dermal regeneration. Tissue Eng. Part A 15(5), 1191-1200 (2009)
15. Venugopal, J., Low, S., Choon, A.T., Ramakrishna, S.: Interaction of cells and nanofiber
scaffolds for tissue engineering. J. Biomed. Mater. Res.Part B Appl. Biomater. 84(1), 34-48
(2007)
16. Vasita,
R.,
Katti,
D.S.:
Nanofibers
and
their
applications
in
tissue
engineering.
Int.
J. Nanomed. 1(1), 15-30 (2006)
17. Stitzel, J.D., Pawlowski, K.J., Wnek, G.E., Simpson, D.G., Bowlin, G.L.: Arterial smooth
muscle cell proliferation on a novel biomimicking, biodegradable vascular graft scaffold.
J. Biomater. Appl. 16(1), 22-33 (2001)
18. Xu, C., Inai, R., Kotaki, M., Ramakrishna, S.: Electrospun nanofiber fabrication as synthetic
extracellular matrix and its potential for vascular tissue engineering. Tissue Eng. 10(7/8),
1160-1168 (2004)
19. He, W., Yong, T., Ma, Z.W., Inai, R., Teo, W.E., Ramakrishna, S.: Biodegradable polymer
nanofiber mesh to maintain functions of endothelial cells. Tissue Eng. 12(9), 2457-2466 (2006)
20. Drury, J.L., Mooney, D.J.: Hydrogels for tissue engineering: scaffold design variable and
applications. Synth. Biomimetic Polym. 24(24), 4337-4351 (2003)
21. Chan, V., Zorlutuna, P., Jeong, J.H., Kong, H., Bashir, R.: Three-dimensional
photopatterning of hydrogels using stereolithography for long-term cell encapsulation. Lab.
Chip. 10(16), 2062-2070 (2010)
22. Keshaw, H., Forbes, A., Day, R.M.: Release of angiogenic growth factors from cells
encapsulated in alginate beads with bioactive glass. Biomaterials 26(19), 4171-4179 (2005)
23. Cha, C., Jeong, J.H., Shim, J., Kong, H.: Tuning the dependency between stiffness and
permeability
of
a
cell
encapsulating
hydrogel
with
hydrophilic
pendant
chains.
Acta.
Biomater. 7(10), 3719-3728 (2011)
24. Cha, C., Kim, S.Y., Cao, L., Kong, H.: Decoupled control of stiffness and permeability with a
cell-encapsulating poly (ethylene glycol) dimethacrylate hydrogel. Biomaterials 31(18),
4864-4871 (2010)
25. Jeong, J.H., Chan, V., Cha, C., Zorlutuna, P., Dyck, C., Hsia, K., et al.: 'Living'
microvascular stamp for patterning of functional neovessels; orchestrated control of matrix
property and geometry. Adv. Mater. 24(1), 58-63 (2012)
26. Breen, A., O'Brien, T., Pandit, A.: Fibrin as a delivery system for therapeutic drugs and
biomolecules. Tissue Eng. Part B Rev. 15(2), 201-214 (2009)
27. Kim, P.D., Peyton, S.R., Van Strien, A.J., Putnam, A.J.: The influence of ascorbic acid, TGF-
beta1, and cell-mediated remodeling on the bulk mechanical properties of 3-D PEG-
fibrinogen constructs. Biomaterials 30(23-24), 3854-3864 (2009)
28. Moon, J.J., Saik, J.E., Poche, R.A., Leslie-Barbick, J.E., Lee, S.-H., Smith, A.A., et al.:
Biomimetic hydrogels with pro-angiogenic properties. Biomaterials 31(14), 3840-3847 (2010)
29. Silva, E.A., Kim, E.-S., Kong, H., Mooney, D.J.: Material-based deployment enhances
efficacy of endothelial progenitor cells. PNAS 105(38), 14347-14352 (2008)
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