Biomedical Engineering Reference
In-Depth Information
143. Bian, L., Zhai, D.Y., Mauck, R.L., Burdick, J.A.: Coculture of human mesenchymal stem
cells and articular chondrocytes reduces hypertrophy and enhances functional properties of
engineered cartilage. Tissue Eng. Part A
17
, 1137-1145 (2010)
144. Park, J.S., Yang, H.N., Woo, D.G., Kim, H., Na, K., Park, K.-H.: Multi-lineage differentia-
tion of hMSCs encapsulated in thermo-reversible hydrogel using a co-culture system with
differentiated cells. Biomaterials
31
, 7275-7287 (2010)
145. Trkov, S., Eng, G., Di Liddo, R., Parnigotto, P.P., Vunjak-Novakovic, G.: Micropatterned
three-dimensional hydrogel system to study human endothelial-mesenchymal stem cell
interactions. J. Tissue Eng. Regen. Med.
4
, 205-215 (2010)
146. Silva, N.A., Cooke, M.J., Tam, R.Y., Sousa, N., Salgado, A.J., Reis, R.L., et al.: The effects
of peptide modified gellan gum and olfactory ensheathing glia cells on neural stem/progeni-
tor cell fate. Biomaterials
33
, 6345-6354 (2012)
147. Chen, Y.-C., Lin, R.-Z., Qi, H., Yang, Y., Bae, H., Melero-Martin, J.M., et al.: Functional
human vascular network generated in photocrosslinkable gelatin methacrylate hydrogels.
Adv. Funct. Mater.
22
, 2027-2039 (2012)
148. Hwang, Y.-S., Chung, B.G., Ortmann, D., Hattori, N., Moeller, H.-C., Khademhosseini, A.:
Microwell-mediated control of embryoid body size regulates embryonic stem cell fate via
differential expression of WNT5a and WNT11. Proc. Natl. Acad. Sci.
106
, 16978-16983
(2009)
149. Hsieh, T.M., Benjamin Ng, C.W., Narayanan, K., Wan, A.C.A., Ying, J.Y.: Three-
dimensional microstructured tissue scaffolds fabricated by two-photon laser scanning photo-
lithography. Biomaterials
31
, 7648-7652 (2010)
150. Gauvin, R., Chen, Y.-C., Lee, J.W., Soman, P., Zorlutuna, P., Nichol, J.W., et al.:
Microfabrication of complex porous tissue engineering scaffolds using 3D projection stereo-
lithography. Biomaterials
33
, 3824-3834 (2012)
151. Tsang, V.L., Chen, A.A., Cho, L.M., Jadin, K.D., Sah, R.L., DeLong, S., et al.: Fabrication
of 3D hepatic tissues by additive photopatterning of cellular hydrogels. FASEB J.
21
, 790-
801 (2007)
152. Lee, S.-H., Moon, J.J., West, J.L.: Three-dimensional micropatterning of bioactive hydro-
gels via two-photon laser scanning photolithography for guided 3D cell migration.
Biomaterials
29
, 2962-2968 (2008)
153. Albrecht, D.R., Underhill, G.H., Wassermann, T.B., Sah, R.L., Bhatia, S.N.: Probing the
role of multicellular organization in three-dimensional microenvironments. Nat Meth.
3
,
369-375 (2006)
154. Ling, Y., Rubin, J., Deng, Y., Huang, C., Demirci, U., Karp, J.M., et al.: A cell-laden micro-
fluidic hydrogel. Lab Chip
7
, 756-762 (2007)
155. Lii, J., Hsu, W.-J., Parsa, H., Das, A., Rouse, R., Sia, S.K.: Real-time microfluidic system for
studying mammalian cells in 3D microenvironments. Anal. Chem.
80
, 3640-3647 (2008)
156. Miller, J.S., Stevens, K.R., Yang, M.T., Baker, B.M., Nguyen, D.-H.T., Cohen, D.M., et al.:
Rapid casting of patterned vascular networks for perfusable engineered three-dimensional
tissues. Nat. Mater.
11
, 768-774 (2012)
157. Park, Y.D., Tirelli, N., Hubbell, J.A.: Photopolymerized hyaluronic acid-based hydrogels
and interpenetrating networks. Biomaterials
24
, 893-900 (2003)
158. Bryant, S.J., Davis-Arehart, K.A., Luo, N., Shoemaker, R.K., Arthur, J.A., Anseth, K.S.:
Synthesis and characterization of photopolymerized multifunctional hydrogels: water-solu-
ble poly(vinyl alcohol) and chondroitin sulfate macromers for chondrocyte encapsulation.
Macromolecules
37
, 6726-6733 (2004)
159. Nichol, J.W., Koshy, S.T., Bae, H., Hwang, C.M., Yamanlar, S., Khademhosseini, A.: Cell-
laden microengineered gelatin methacrylate hydrogels. Biomaterials
31
, 5536-5544 (2010)
160. Song, Y., Lin, R., Montesano, G., Durmus, N., Lee, G., Yoo, S.-S., et al.: Engineered 3D tis-
sue models for cell-laden microfluidic channels. Anal. Bioanal. Chem.
395
, 185-193 (2009)
161. Figallo, E., Cannizzaro, C., Gerecht, S., Burdick, J.A., Langer, R., Elvassore, N., et al.:
Micro-bioreactor array for controlling cellular microenvironments. Lab Chip
7
, 710-719
(2007)
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