Biomedical Engineering Reference
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133. Liska R, Schuster M, Infuhr R, Tureeek C, Fritscher C, Seidl B et al (2007) Photopolymers
for rapid prototyping. J Coatings Technol Res 4(4):505-510
134. Lee SJ, Rhie JW, Cho DW (2008) Development of three-dimensional alginate encapsulated
chondrocyte hybrid scaffold using microstereolithography. J Manuf Sci Eng Trans ASME
130(2):021007
135. Lee SJ, Kang T, Rhie JW, Cho DW (2007) Development of three-dimensional hybrid scaffold
using chondrocyte-encapsulated alginate hydrogel. Sens Mater 19(8):445-451
136. Lee SJ, Kang HW, Park JK, Rhie JW, Hahn SK, Cho DW (2008) Application of microstereo-
lithography in the development of three-dimensional cartilage regeneration scaffolds. Biomed
Microdevices 10(2):233-241
137. Dhariwala B, Hunt E, Boland T (2004) Rapid prototyping of tissue-engineering constructs,
using photopolymerizable hydrogels and stereolithography. Tissue Eng 10(9-10):
1316-1322
138. Hutmacher DW, Sittinger M, Risbud MV (2004) Scaffold-based tissue engineering: rationale
for computer-aided design and solid free-form fabrication systems. Trends Biotechnol
22(7):354-362
139. Lu Y, Mapili G, Suhali G, Chen SC, Roy K (2006) A digital micro-mirror device-based sys-
tem for the microfabrication of complex, spatially patterned tissue engineering scaffolds.
J Biomed Mater Res A 77A(2):396-405
140. Choi JW, Wicker R, Lee SH, Choi KH, Ha CS, Chung I (2009) Fabrication of 3D biocompat-
ible/biodegradable micro-scaffolds using dynamic mask projection microstereolithography.
J Mater Process Technol 209(15-16):5494-5503
141. Han LH, Mapili G, Chen S, Roy K (2008) Projection microfabrication of three-dimensional
scaffolds for tissue engineering. J Manuf Sci Eng Trans ASME 130(2):021005
142. Itoga K, Yamato M, Kobayashi J, Kikuchi A, Okano T (2004) Cell micropatterning
using photopolymerization with a liquid crystal device commercial projector.
Biomaterials 25(11):2047-2053
143. Sun C, Fang N, Wu DM, Zhang X (2005) Projection micro-stereolithography using digital
micro-mirror dynamic mask. Sens Actuators A Phys 121(1):113-120
144. Gu P, Zhang X, Zeng Y, Ferguson B (2001) Quality analysis and optimization of solid ground
curing process. J Manuf Syst 20(4):250-263
145. Zhang X, Zhou B, Zeng Y, Gu P (2002) Model layout optimization for solid ground curing
rapid prototyping processes. Robot Comput Integr Manuf 18(1):41-51
146. Xing JF, Dong XZ, Chen WQ, Duan XM, Takeyasu N, Tanaka T et al (2007) Improving
spatial resolution of two-photon microfabrication by using photoinitiator with high initiating
efficiency. Appl Phys Lett 90(13):131103-131106
147. Yu T, Chiellini F, Schmaljohan D, Solaro R, Ober C (2002) Microfabrication of hydrogels for
biomedical applications. In: Fedynyshyn TH (ed) Advances in resist technology and process-
ing XIX, Parts 1 and 2. Spie-Int Soc Optical Engineering, Bellingham, pp 854-860
148. Mapili G, Lu Y, Chen SC, Roy K (2005) Laser-layered microfabrication of spatially patterned
functionalized tissue-engineering scaffolds. J Biomed Mater Res B Appl Biomater 75B(2):
414-424
149. Arcaute K, Mann B, Wicker R (2010) Stereolithography of spatially controlled multi-mate-
rial bioactive poly(ethylene glycol) scaffolds. Acta Biomater 6(3):1047-1054
150. Arcaute K, Ochoa L, Mann BK, Wicker RB (2005). Stereolithography of PEG hydrogel
multi-lumen nerve regeneration conduits. ASME IMECE2005-81436 American Society of
Mechanical Engineers International Mechanical Engineering Congress and Exposition,
Orlando, Florida, 5-11 November 2005
151. Arcaute K, Ochoa L, Medina F, Elkins C, Mann B, Wicker R (2005) Three-dimensional PEG
hydrogel construct fabrication using stereolithography. In: Fratzl P, Landis WJ, Wang R,
Silver FH (eds) Structure and mechanical behavior of biological materials. Materials Research
Society Sympiosium Proceedings, Warrendale, PA, pp 191-197
152. Yasar O et al (2009) A Lindenmayer system-based approach for the design of nutrient deliv-
ery networks in tissue constructs. Biofabrication 1(4):045004
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