Current advances and future perspectives in extrusion-based bioprinting IT Ozbolat, M Hospodiuk Biomaterials 76, 321-343, 2016 | 1504 | 2016 |
The bioink: A comprehensive review on bioprintable materials M Hospodiuk, M Dey, D Sosnoski, IT Ozbolat Biotechnology advances 35 (2), 217-239, 2017 | 1019 | 2017 |
Bioprinting toward organ fabrication: challenges and future trends IT Ozbolat, Y Yu IEEE Transactions on Biomedical Engineering 60 (3), 691-699, 2013 | 810 | 2013 |
A comprehensive review on droplet-based bioprinting: Past, present and future H Gudapati, M Dey, I Ozbolat Biomaterials 102, 20-42, 2016 | 778 | 2016 |
Bioprinting technology: a current state-of-the-art review AB Dababneh, IT Ozbolat Journal of Manufacturing Science and Engineering 136 (6), 061016, 2014 | 490 | 2014 |
Bioprinting for vascular and vascularized tissue biofabrication P Datta, B Ayan, IT Ozbolat Acta biomaterialia 51, 1-20, 2017 | 427 | 2017 |
Bioprinting scale-up tissue and organ constructs for transplantation IT Ozbolat Trends in biotechnology 33 (7), 395-400, 2015 | 367 | 2015 |
The bioprinting roadmap W Sun, B Starly, AC Daly, JA Burdick, J Groll, G Skeldon, W Shu, Y Sakai, ... Biofabrication 12 (2), 022002, 2020 | 340 | 2020 |
Application areas of 3D bioprinting IT Ozbolat, W Peng, V Ozbolat Drug discovery today 21 (8), 1257-1271, 2016 | 339 | 2016 |
3D bioprinting for drug discovery and development in pharmaceutics W Peng, P Datta, B Ayan, V Ozbolat, D Sosnoski, IT Ozbolat Acta biomaterialia 57, 26-46, 2017 | 299 | 2017 |
Three-dimensional bioprinting using self-assembling scalable scaffold-free “tissue strands” as a new bioink Y Yu, KK Moncal, J Li, W Peng, I Rivero, JA Martin, IT Ozbolat Scientific reports 6 (1), 28714, 2016 | 280 | 2016 |
Evaluation of cell viability and functionality in vessel-like bioprintable cell-laden tubular channels Y Yu, Y Zhang, JA Martin, IT Ozbolat Journal of biomechanical engineering 135 (9), 091011, 2013 | 280 | 2013 |
Characterization of printable cellular micro-fluidic channels for tissue engineering Y Zhang, Y Yu, H Chen, IT Ozbolat Biofabrication 5 (2), 025004, 2013 | 251 | 2013 |
Evaluation of bioprinter technologies IT Ozbolat, KK Moncal, H Gudapati Additive Manufacturing 13, 179-200, 2017 | 249 | 2017 |
3D bioprinting for reconstituting the cancer microenvironment P Datta, M Dey, Z Ataie, D Unutmaz, IT Ozbolat NPJ precision oncology 4 (1), 18, 2020 | 219 | 2020 |
3D bioprinting of cells, tissues and organs M Dey, IT Ozbolat Scientific reports 10 (1), 14023, 2020 | 215 | 2020 |
Bioprinting towards physiologically relevant tissue models for pharmaceutics W Peng, D Unutmaz, IT Ozbolat Trends in biotechnology 34 (9), 722-732, 2016 | 215 | 2016 |
In vitro study of directly bioprinted perfusable vasculature conduits Y Zhang, Y Yu, A Akkouch, A Dababneh, F Dolati, IT Ozbolat Biomaterials science 3 (1), 134-143, 2015 | 215 | 2015 |
Development of ‘Multi-arm Bioprinter’for hybrid biofabrication of tissue engineering constructs IT Ozbolat, H Chen, Y Yu Robotics and Computer-Integrated Manufacturing 30 (3), 295-304, 2014 | 206 | 2014 |
Direct bioprinting of vessel-like tubular microfluidic channels Y Zhang, Y Yu, IT Ozbolat Journal of nanotechnology in engineering and medicine 4 (2), 020902, 2013 | 190 | 2013 |