Biomedical Engineering Reference
In-Depth Information
92. Lee CH , Shin HJ , Cho IH , Kang YM , Kim IA , Park KD , Shin JW . Nanofi ber align-
ment and direction of mechanical strain affect the ECM production of human ACL
fi broblast . Biomaterials 2005 ; 26 : 1261 - 1270 .
93. Xu CY , Inai R , Kotaki M , Ramakrishna S . Aligned biodegradable nanofi brous
structure: a potential scaffold for blood vessel engineering . Biomaterials 2004 ; 25 : 877 -
886 .
94. Lutolf MP , Hubbell JA . Synthetic biomaterials as instructive extracellular microenvi-
ronments for morphogenesis in tissue engineering . Nat Biotech 2005 ; 23 : 47 - 55 .
95. Tuzlakoglu K , Bolgen N , Salgado AJ , Gomes ME , Piskin E , Reis RL . Nano - and
micro- fi ber combined scaffolds: a new architecture for bone tissue engineering. J
Mater Sci Mater Med 2005 ; 16 : 1099 - 1104 .
96. Sahoo S , Ouyang H , Goh JCH , Tay TE , Toh SL . Characterization of a novel poly-
meric scaffold for potential application in tendon/ligament tissue engineering. Tissue
Eng 2006 ; 12 : 91 - 99 .
97. Nicholson AT , Jayasinghe SN . Cell electrospinning: A unique biotechnique for encap-
sulating living organisms for generating active biological microthreads/scaffolds. Bio-
macromol 2006 ; 7 : 3364 - 3369 .
98. Jiang H , Hu Y , Li Y , Zhao P , Zhu P , Chen W . A facile technique to prepare biodegrad-
able coaxial electrospun nanofi bers for controlled release of bioactive agents. J Cont
Rel 2005 ; 108 : 237 - 243 .
99. Dosunmu OO , Chase GG , Varabhas JS , Kataphinan W , Reneker DH . Polymer nano-
fi bers from multiple jets produced on a porous surface by electrospinning. Chapter
10: Polymer Nanocomposites.
100. Ramakrishna S , Fujihara K , Teo WE , Yong T , Ma Z , Ramaseshan R . Electrospun
nanofi bers : solving global issues . Materials Today 2006 ; 9 : 40 - 50 .
101. Shields JK , Beckman JM , Bowlin GL , Wayne J . Mechanical properties and cellular
proliferation of electrospun collagen type II. Tissue Eng 2004 ; 10 ( 9 - 10 ): 1510 - 1517 .
102. Li C , Vepari C , Jin HJ , Kim HJ , Kaplan DJ . Electrospun silk - BMP - 2 scaffolds for bone
tissue engineering . Biomaterials 2006 ; 27 : 3115 - 3124 .
103. Chong EJ , Phan TT , Lim IJ , Zhang YZ , Bay BH , Ramakrishna S , Lim CT . Evaluation
of electrospun PCL/gelatin nanofi brous scaffold for wound healing and layered
dermal reconstitution. Acta Biomaterialia 2007 ; 3 : 321 - 330 .
104. Xua CY , Inaic R , Kotaki M , Ramakrishna S . Aligned biodegradable nanofi brous
structure: a potential scaffold for blood vessel engineering . Biomaterials 2004 ; 25 : 877 -
886 .
105. Riboldi Sa , Sampaolesi M , Neuenschwander P , Cossu G , Mantero S . Electrospun de-
gradable polyesterurethane membranes: potential scaffolds for skeletal muscle tissue
engineering . Biomaterials 2005 ; 26 : 4606 - 4615 .
106. Zeng J , Aigner A , Czubayko F , Kissel T , Wendorff JH , Greiner A . Poly(vinyl alcohol)
nanofi bers by electrospinning as a protein delivery system and the retardation of
enzyme release by additional polymer coatings . Biomacromol 2005 ; 6 ( 3 ): 1484 - 1488 .
107. Liang D , Luu YK , Kim K , Hsiao BS , Hadjiargyrou M , Chu B .
In vitro
non - viral gene
delivery with nanofi brous scaffolds . Nucleic Acids Res 2005 ; 33 ( 19 ): e170 .
108. Wang X , Drew C , Lee SH , Senecal KJ , Kumar J , Samuelson LA . Electrospinning
technology: a novel approach to sensor application. J Macromol Sci Part A 2002;
39 ( 10 ): 1251 - 1258 .
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