Biomedical Engineering Reference
In-Depth Information
111. Hao, L., Savalani, M.M., Zhang, Y., Tanner, K.E. et al., Selective laser sintering of hydroxyapatite
reinforced polyethylene composites for bioactive implants and tissue scaffold development,
Proc Inst
Mech Eng [H]
, 220, 521, 2006.
112. Cai, H., Azangwe, G. and Shepherd, D.E., Skin cell culture on an ear-shaped scaffold created by fused
deposition modelling,
Biomed Mater Eng
, 15, 375, 2005.
113. Cooke, M.N., Fisher, J.P., Dean, D., Rimnac, C. et al., Use of stereolithography to manufacture critical-
sized 3D biodegradable scaffolds for bone ingrowth,
J Biomed Mater Res B Appl Biomater
, 64B, 65,
2003.
114. Dhariwala, B., Hunt, E. and Boland, T., Rapid prototyping of tissue-engineering constructs, using
photopolymerizable hydrogels and stereolithography,
Tissue Eng
, 10, 1316, 2004.
115. Sodian, R., Loebe, M., Hein, A., Martin, D.P. et al., Application of stereolithography for scaffold fabri-
cation for tissue engineered heart valves,
Asaio J
, 48, 12, 2002.
116. Seitz, H., Rieder, W., Irsen, S., Leukers, B. et al., Three-dimensional printing of porous ceramic
scaffolds for bone tissue engineering,
J Biomed Mater Res B Appl Biomater
, 74, 782, 2005.
117. Sherwood, J.K., Riley, S.L., Palazzolo, R., Brown, S.C. et al., A three-dimensional osteochondral com-
posite scaffold for articular cartilage repair,
Biomaterials
, 23, 4739, 2002.
118. Vozzi, G., Flaim, C., Ahluwalia, A. and Bhatia, S., Fabrication of PLGA scaffolds using soft lithography
and microsyringe deposition,
Biomaterials
, 24, 2533, 2003.
119. Bianchi, F., Vassalle, C., Simonetti, M., Vozzi, G. et al., Endothelial cell function on 2D and 3D micro-
fabricated polymer scaffolds: applications in cardiovascular tissue engineering,
J Biomater Sci Polym
Ed
, 17, 37, 2006.
120. Manjubala, I., Woesz, A., Pilz, C., Rumpler, M. et al., Biomimetic mineral-organic composite scaffolds
with controlled internal architecture,
J Mater Sci Mater Med
, 16, 1111, 20 05.
121. Fukuda, J., Khademhosseini, A., Yeh, J., Eng, G. et al., Micropatterned cell co-cultures using layer-by-
layer deposition of extracellular matrix components,
Biomaterials
, 27, 1479, 2006.
122. Borden, M., El-Amin, S.F., Attawia, M. and Laurencin, C.T., Structural and human cellular assess-
ment of a novel microsphere-based tissue engineered scaffold for bone repair,
Biomaterials
, 24, 597,
2003.
123. Min, B.M., Lee, G., Kim, S.H., Nam, Y.S. et al., Electrospinning of silk fi broin nanofi bres and its effect
on the adhesion and spreading of normal human keratinocytes and fi broblasts in vitro,
Biomaterials
, 25,
1289, 2004.
124. Sarazin, P., Roy, X. and Favis, B.D., Controlled preparation and properties of porous poly(l-lactide)
obtained from a co-continuous blend of two biodegradable polymers,
Biomaterials
, 25, 5965, 2004.
125. Jager, M., Feser, T., Denck, H. and Krauspe, R., Proliferation and osteogenic differentiation of mesen-
chymal stem cells cultured onto three different polymers in vitro,
Ann Biomed Eng
, 33, 1319, 2005.
126. Stangenberg, L., Schaefer, D.J., Buettner, O., Ohnolz, J. et al., Differentiation of osteoblasts in three-
dimensional culture in processed cancellous bone matrix: quantitative analysis of gene expression based
on real-time reverse transcription-polymerase chain reaction,
Tissue Eng
, 11, 855, 2005.
127. Curran, J.M., Chen, R. and Hunt, J.A., The guidance of human mesenchymal stem cell differentiation
in vitro by controlled modifi cations to the cell substrate,
Biomaterials
, 27, 4783, 2006.
128. Guilak, F., Volume and surface area measurement of viable chondrocytes in situ using geometric model-
ling of serial confocal sections,
J Microsc
, 173, 245, 1994.
129. Jones, C.W., Smolinski, D., Keogh, A., Kirk, T.B. et al., Confocal laser scanning microscopy in ortho-
paedic research,
Prog Histochem Cytochem
, 40, 1, 2005.
130. Meyer, L.E., Otberg, N., Sterry, W. and Lademann, J., In vivo confocal scanning laser microscopy: com-
parison of the refl ectance and fl uorescence mode by imaging human skin,
J Biomed Opt
, 11, 044012,
2006.
131. Zipfel, W.R., Williams, R.M. and Webb, W.W., Nonlinear magic: multiphoton microscopy in the biosci-
ences,
Nat Biotechnol
, 21, 1369, 2003.
132. Ho, S.T. and Hutmacher, D.W., A comparison of micro CT with other techniques used in the character-
ization of scaffolds,
Biomaterials
, 27, 1362, 2006.
133. Lin, A.S., Barrows, T.H., Cartmell, S.H. and Guldberg, R.E., Microarchitectural and mechanical
characterization of oriented porous polymer scaffolds,
Biomaterials
, 24, 481, 2003.
134. Cartmell, S., Huynh, K., Lin, A., Nagaraja, S. et al., Quantitative microcomputed tomography analysis
of mineralization within three-dimensional scaffolds in vitro,
J Biomed Mater Res A
, 69, 97, 2004.
135. Huang, D., Swanson, E.A., Lin, C.P., Schuman, J.S. et al., Optical coherence tomography,
Science
, 254,
1178, 1991.
