Carbon-nanotube-embedded hydrogel sheets for engineering cardiac constructs and bioactuators SR Shin, SM Jung, M Zalabany, K Kim, P Zorlutuna, S Kim, M Nikkhah, ... ACS nano 7 (3), 2369-2380, 2013 | 944 | 2013 |
Microfabrication of complex porous tissue engineering scaffolds using 3D projection stereolithography R Gauvin, YC Chen, JW Lee, P Soman, P Zorlutuna, JW Nichol, H Bae, ... Biomaterials 33 (15), 3824-3834, 2012 | 757 | 2012 |
Direct-write bioprinting of cell-laden methacrylated gelatin hydrogels LE Bertassoni, JC Cardoso, V Manoharan, AL Cristino, NS Bhise, ... Biofabrication 6 (2), 024105, 2014 | 654 | 2014 |
Three-dimensional photopatterning of hydrogels using stereolithography for long-term cell encapsulation V Chan, P Zorlutuna, JH Jeong, H Kong, R Bashir Lab on a Chip 10 (16), 2062-2070, 2010 | 552 | 2010 |
Microfabricated biomaterials for engineering 3D tissues P Zorlutuna, N Annabi, G Camci‐Unal, M Nikkhah, JM Cha, JW Nichol, ... Advanced materials 24 (14), 1782-1804, 2012 | 465 | 2012 |
Directed endothelial cell morphogenesis in micropatterned gelatin methacrylate hydrogels M Nikkhah, N Eshak, P Zorlutuna, N Annabi, M Castello, K Kim, ... Biomaterials 33 (35), 9009-9018, 2012 | 303 | 2012 |
Patterning the differentiation of C2C12 skeletal myoblasts P Bajaj, B Reddy Jr, L Millet, C Wei, P Zorlutuna, G Bao, R Bashir Integrative Biology 3 (9), 897-909, 2011 | 234 | 2011 |
Breast cancer models: Engineering the tumor microenvironment G Bahcecioglu, G Basara, BW Ellis, X Ren, P Zorlutuna Acta biomaterialia 106, 1-21, 2020 | 170 | 2020 |
Stereolithography‐based hydrogel microenvironments to examine cellular interactions P Zorlutuna, JH Jeong, H Kong, R Bashir Advanced Functional Materials 21 (19), 3642-3651, 2011 | 157 | 2011 |
YAP and TAZ limit cytoskeletal and focal adhesion maturation to enable persistent cell motility DE Mason, JM Collins, JH Dawahare, TD Nguyen, Y Lin, ... Journal of Cell Biology 218 (4), 1369-1389, 2019 | 149 | 2019 |
Nanobiomaterials: a review of the existing science and technology, and new approaches V Hasirci, E Vrana, P Zorlutuna, A Ndreu, P Yilgor, FB Basmanav, E Aydin Journal of Biomaterials Science, Polymer Edition 17 (11), 1241-1268, 2006 | 134 | 2006 |
Fiber-reinforced hydrogel scaffolds for heart valve tissue engineering M Eslami, NE Vrana, P Zorlutuna, S Sant, S Jung, N Masoumi, ... Journal of biomaterials applications 29 (3), 399-410, 2014 | 133 | 2014 |
Engineered cell-laden human protein-based elastomer N Annabi, SM Mithieux, P Zorlutuna, G Camci-Unal, AS Weiss, ... Biomaterials 34 (22), 5496-5505, 2013 | 133 | 2013 |
Enabling personalized implant and controllable biosystem development through 3D printing N Nagarajan, A Dupret-Bories, E Karabulut, P Zorlutuna, NE Vrana Biotechnology advances 36 (2), 521-533, 2018 | 129 | 2018 |
The expanding world of tissue engineering: the building blocks and new applications of tissue engineered constructs P Zorlutuna, NE Vrana, A Khademhosseini IEEE reviews in biomedical engineering 6, 47-62, 2012 | 112 | 2012 |
Electrically conductive 3D printed Ti3C2Tx MXene-PEG composite constructs for cardiac tissue engineering G Basara, M Saeidi-Javash, X Ren, G Bahcecioglu, BC Wyatt, B Anasori, ... Acta biomaterialia 139, 179-189, 2022 | 104 | 2022 |
Stromal cell-laden 3D hydrogel microwell arrays as tumor microenvironment model for studying stiffness dependent stromal cell-cancer interactions X Yue, TD Nguyen, V Zellmer, S Zhang, P Zorlutuna Biomaterials 170, 37-48, 2018 | 99 | 2018 |
Human iPSC-derived myocardium-on-chip with capillary-like flow for personalized medicine BW Ellis, A Acun, UI Can, P Zorlutuna Biomicrofluidics 11 (2), 2017 | 97 | 2017 |
“Living” microvascular stamp for patterning of functional neovessels; orchestrated control of matrix property and geometry JH Jeong, V Chan, C Cha, P Zorlutuna, C Dyck, KJ Hsia, R Bashir, ... Advanced Materials 24 (1), 58-63, 2012 | 92 | 2012 |
3D hydrogel-based microwell arrays as a tumor microenvironment model to study breast cancer growth J Casey, X Yue, TD Nguyen, A Acun, VR Zellmer, S Zhang, P Zorlutuna Biomedical Materials 12 (2), 025009, 2017 | 82 | 2017 |