Fabrication methods of porous metals for use in orthopaedic applications G Ryan, A Pandit, DP Apatsidis Biomaterials 27 (13), 2651-2670, 2006 | 1699 | 2006 |
Porous Substrates for Implantation D Apatsidis, G Ryan, A Pandit US Patent App. 12/527,078, 2010 | 700 | 2010 |
The collagen suprafamily: from biosynthesis to advanced biomaterial development A Sorushanova, LM Delgado, Z Wu, N Shologu, A Kshirsagar, ... Advanced materials 31 (1), 1801651, 2019 | 624 | 2019 |
A biomaterials approach to peripheral nerve regeneration: bridging the peripheral nerve gap and enhancing functional recovery W Daly, L Yao, D Zeugolis, A Windebank, A Pandit Journal of the Royal Society Interface 9 (67), 202-221, 2012 | 612 | 2012 |
Silicon gel sheeting for preventing and treating hypertrophic and keloid scars L O'Brien, A Pandit Cochrane database of systematic reviews, 2006 | 535* | 2006 |
Biomimetic approaches in bone tissue engineering: Integrating biological and physicomechanical strategies MA Fernandez-Yague, SA Abbah, L McNamara, DI Zeugolis, A Pandit, ... Advanced drug delivery reviews 84, 1-29, 2015 | 478 | 2015 |
Porous titanium scaffolds fabricated using a rapid prototyping and powder metallurgy technique GE Ryan, AS Pandit, DP Apatsidis Biomaterials 29 (27), 3625-3635, 2008 | 400 | 2008 |
Bioreactors for cardiovascular cell and tissue growth: a review V Barron, E Lyons, C Stenson-Cox, PE McHugh, A Pandit Annals of biomedical engineering 31, 1017-1030, 2003 | 273 | 2003 |
Controlling dispersion of axonal regeneration using a multichannel collagen nerve conduit L Yao, GCW de Ruiter, H Wang, AM Knight, RJ Spinner, MJ Yaszemski, ... Biomaterials 31 (22), 5789-5797, 2010 | 256 | 2010 |
To cross-link or not to cross-link? Cross-linking associated foreign body response of collagen-based devices LM Delgado, Y Bayon, A Pandit, DI Zeugolis Tissue Engineering Part B: Reviews 21 (3), 298-313, 2015 | 252 | 2015 |
Recent advances in host–guest self‐assembled cyclodextrin carriers: Implications for responsive drug delivery and biomedical engineering J Wankar, NG Kotla, S Gera, S Rasala, A Pandit, YA Rochev Advanced Functional Materials 30 (44), 1909049, 2020 | 249 | 2020 |
Challenges and strategies in the repair of ruptured annulus fibrosus CC Guterl, EY See, SBG Blanquer, A Pandit, SJ Ferguson, LM Benneker, ... European cells & materials 25, 1, 2013 | 240 | 2013 |
An injectable vehicle for nucleus pulposus cell-based therapy EC Collin, S Grad, DI Zeugolis, CS Vinatier, JR Clouet, JJ Guicheux, ... Biomaterials 32 (11), 2862-2870, 2011 | 236 | 2011 |
Tissue-engineering approach to regenerating the intervertebral disc DM O'Halloran, AS Pandit Tissue engineering 13 (8), 1927-1954, 2007 | 226 | 2007 |
Hemostatic wound dressing AS Pandit US Patent 5,836,970, 1998 | 226 | 1998 |
Regeneration and repair of tendon and ligament tissue using collagen fibre biomaterials SJ Kew, JH Gwynne, D Enea, M Abu-Rub, A Pandit, D Zeugolis, ... Acta biomaterialia 7 (9), 3237-3247, 2011 | 201 | 2011 |
Polymer gene delivery: overcoming the obstacles A Aied, U Greiser, A Pandit, W Wang Drug discovery today 18 (21-22), 1090-1098, 2013 | 195 | 2013 |
Physical, chemical, and biological structures based on ROS‐sensitive moieties that are able to respond to oxidative microenvironments C Tapeinos, A Pandit Advanced Materials 28 (27), 5553-5585, 2016 | 190 | 2016 |
An injectable cross-linked scaffold for nucleus pulposus regeneration DO Halloran, S Grad, M Stoddart, P Dockery, M Alini, AS Pandit Biomaterials 29 (4), 438-447, 2008 | 188 | 2008 |
The past, present and future in scaffold-based tendon treatments AJ Lomas, CNM Ryan, A Sorushanova, N Shologu, AI Sideri, V Tsioli, ... Advanced drug delivery reviews 84, 257-277, 2015 | 187 | 2015 |