Biomedical Engineering Reference
In-Depth Information
24. Luong-Van, E., et al., Controlled release of heparin from poly(epsilon-caprolactone) electrospun fi bers.
Biomaterials
, 2006,
27
(9): 2042-2050.
25. Luu, Y.K., et al., Development of a nanostructured DNA delivery scaffold via electrospinning of PLGA
and PLA-PEG block copolymers.
Journal of Controlled Release
, 2003,
89
(2): 341-353.
26. Huang, Z.M., et al., A review on polymer nanofi bers by electrospinning and their applications in nano-
composites.
Composites Science and Technology
, 2003,
63
(15): 2223-2253.
27. Nisbet, D.R., et al., The effect of surface hydrophilicity on the behavior of embryonic cortical neurons.
Journal of Colloid and Interface Science
, 2006,
299
(2): 647-655.
28. Xu, C.Y., et al., Aligned biodegradable nanofi brous structure: a potential scaffold for blood vessel engi-
neering.
Biomaterials
, 2004,
25
(5): 877-886.
29. Webb, P.A. and C. Orr,
Analytical Methods in Fine Particle Technology
. Micromeritics Instrument
Corporation, Norcross, GA, 1997.
30. Li, W.J., et al., Electrospun nanofi brous structure: a novel scaffold for tissue engineering.
Journal of
Biomedical Materials Research
, 2002,
60
(4): 613 - 621.
31. Min, B.M., et al., Formation of silk fi broin matrices with different texture and its cellular response
to normal human keratinocytes.
International Journal of Biological Macromolecules
, 2004,
34
(5):
281-288.
32. Pham, Q.P., U. Sharma, and A.G. Mikos, Electrospun poly(epsilon-caprolactone) microfi ber and multi-
layer nanofi ber/microfi ber scaffolds: characterization of scaffolds and measurement of cellular infi ltra-
tion.
Biomacromolecules
, 2006,
7
(10): 2796 -2805.
33. Kwon, I.K., S. Kidoaki, and T. Matsuda, Electrospun nano- to microfi ber fabrics made of biodegradable
copolyesters: structural characteristics, mechanical properties and cell adhesion potential.
Biomateri-
als
, 2005,
26
(18): 3929 -3939.
34. Xu, C.Y., et al., In vitro study of human vascular endothelial cell function on materials with various
surface roughness.
Journal of Biomedical Materials Research Part A
, 2004,
71A
(1): 154 -161.
35. Jaeger, R., H. Schonherr, and G.J. Vancso, Chain packing in electro-spun poly(ethylene oxide) visual-
ized by atomic force microscopy.
Macromolecules
, 1996,
29
(23): 7634-7636.
36. Gregg, S.J. and K.S.W. Sing,
Adsorption, Surface Area and Porosity
. 2nd ed., Academic Press, London,
1982, p. 303.
37. Zhang, Y.Z., et al., Fabrication of porous electrospun nanofi bers.
Nanotechnology
, 2006,
17
(3): 901-908.
38. Liu, J. and S. Kumar, Microscopic polymer cups by electrospinning.
Polymer
, 2005,
46
(10): 3211-3214.
39. Rhoades, R. and R.G. Pfl anzer,
Human Physiology
. 3rd ed., Perennial (HarperCollins), New York, USA,
1996, p. 978.
40. Yoshimoto, H., et al., A biodegradable nanofi ber scaffold by electrospinning and its potential for bone
tissue engineering.
Biomaterials
, 2003,
24
(12): 2077-2082.
41. Shin, M., H. Yoshimoto, and J.Vacanti, In vivo bone tissue engineering using mesenchymal stem cells
on a novel electrospun nanofi brous scaffold.
Tissue Engineering
, 2004,
10
(1,2): 33 - 41.
42. Kim, H.W., J.H. Song, and H.E. Kim, Nanofi ber generation of gelatin-hydroxyapatite biomimetics for
guided tissue regeneration.
Advanced Functional Materials
, 2005,
15
(12): 1988-1994.
43. Li, C., et al., Electrospun silk-BMP-2 scaffolds for bone tissue engineering.
Biomaterials
, 2006,
27
(16):
3115 -3124.
44. Tuzlakoglu, K., et al., Nano- and micro-fi ber combined scaffolds: a new architecture for bone tissue
engineering.
Journal of Materials Science-Materials in Medicine
, 2005,
16
(12): 1099-1104.
45. Hutmacher, D., M.B. Hurzeler, and H. Schliephake, A review of material properties of biodegradable
and bioresorbable polymers and devices for GTR and GBR applications.
International Journal of Oral
and Maxillofacial Implants
, 1996,
11
(5): 667- 678.
46. Fujihara, K., M. Kotaki, and S. Ramakrishna, Guided bone regeneration membrane made of polycapro-
lactone/calcium carbonate composite nano-fi bers.
Biomaterials
, 2005,
26
(19): 4139- 4147.
47. Subramanian, A. and H.Y. Lin, Crosslinked chitosan: its physical properties and the effects of matrix
stiffness on chondrocyte cell morphology and proliferation.
Journal of Biomedical Materials Research
Part A
, 2005,
75A
(3): 742-753.
48. Li, W.J., et al., A three-dimensional nanofi brous scaffold for cartilage tissue engineering using human
mesenchymal stem cells.
Biomaterials
, 2005,
26
(6): 599- 609.
49. Li, D., Y.L. Wang, and Y.N. Xia, Electrospinning of polymeric and ceramic nanofi bers as uniaxially
aligned arrays.
Nano Letters
, 2003,
3
(8): 1167-1171.
50. Chiu, J.B., et al., Electrospun nanofi brous scaffolds for biomedical applications.
Journal of Biomedical
Nanotechnology
, 2005,
1
(2): 115-132.
