3D printing of personalized thick and perfusable cardiac patches and hearts N Noor, A Shapira, R Edri, I Gal, L Wertheim, T Dvir Advanced science 6 (11), 1900344, 2019 | 953 | 2019 |
Engineered hybrid cardiac patches with multifunctional electronics for online monitoring and regulation of tissue function R Feiner, L Engel, S Fleischer, M Malki, I Gal, A Shapira, ... Nature materials 15 (6), 679-685, 2016 | 415 | 2016 |
Gold nanoparticle-decellularized matrix hybrids for cardiac tissue engineering M Shevach, S Fleischer, A Shapira, T Dvir Nano letters 14 (10), 5792-5796, 2014 | 274 | 2014 |
Suppression of hepatitis C virus by the flavonoid quercetin is mediated by inhibition of NS3 protease activity L Bachmetov, M Gal‐Tanamy, A Shapira, M Vorobeychik, ... Journal of viral hepatitis 19 (2), e81-e88, 2012 | 223 | 2012 |
Toxin-based therapeutic approaches A Shapira, I Benhar Toxins 2 (11), 2519-2583, 2010 | 170 | 2010 |
Nanoengineering gold particle composite fibers for cardiac tissue engineering M Shevach, BM Maoz, R Feiner, A Shapira, T Dvir Journal of Materials Chemistry B 1 (39), 5210-5217, 2013 | 157 | 2013 |
Modular assembly of thick multifunctional cardiac patches S Fleischer, A Shapira, R Feiner, T Dvir Proceedings of the National Academy of Sciences 114 (8), 1898-1903, 2017 | 144 | 2017 |
Personalized hydrogels for engineering diverse fully autologous tissue implants R Edri, I Gal, N Noor, T Harel, S Fleischer, N Adadi, O Green, D Shabat, ... Advanced materials 31 (1), 1803895, 2019 | 124 | 2019 |
Spring-like fibers for cardiac tissue engineering S Fleischer, R Feiner, A Shapira, J Ji, X Sui, HD Wagner, T Dvir Biomaterials 34 (34), 8599-8606, 2013 | 113 | 2013 |
Albumin fiber scaffolds for engineering functional cardiac tissues S Fleischer, A Shapira, O Regev, N Nseir, E Zussman, T Dvir Biotechnology and bioengineering 111 (6), 1246-1257, 2014 | 99 | 2014 |
Gold nanorod-based engineered cardiac patch for suture-free engraftment by near IR M Malki, S Fleischer, A Shapira, T Dvir Nano letters 18 (7), 4069-4073, 2018 | 86 | 2018 |
3D tissue and organ printing—hope and reality A Shapira, T Dvir Advanced Science 8 (10), 2003751, 2021 | 77 | 2021 |
Multifunctional degradable electronic scaffolds for cardiac tissue engineering R Feiner, S Fleischer, A Shapira, O Kalish, T Dvir Journal of controlled release 281, 189-195, 2018 | 68 | 2018 |
Composite biomaterial scaffolds for cardiac tissue engineering A Shapira, R Feiner, T Dvir International Materials Reviews 61 (1), 1-19, 2016 | 62 | 2016 |
A stretchable and flexible cardiac tissue–electronics hybrid enabling multiple drug release, sensing, and stimulation R Feiner, L Wertheim, D Gazit, O Kalish, G Mishal, A Shapira, T Dvir Small 15 (14), 1805526, 2019 | 59 | 2019 |
An immunoconjugate of anti-CD24 and Pseudomonas exotoxin selectively kills human colorectal tumors in mice S Shapira, A Shapira, A Starr, D Kazanov, S Kraus, I Benhar, N Arber Gastroenterology 140 (3), 935-946, 2011 | 59 | 2011 |
Effect of fiber diameter on the assembly of functional 3D cardiac patches S Fleischer, J Miller, H Hurowitz, A Shapira, T Dvir Nanotechnology 26 (29), 291002, 2015 | 55 | 2015 |
Stabilization strategies in extrusion-based 3D bioprinting for tissue engineering A Shapira, N Noor, M Asulin, T Dvir Applied Physics Reviews 5 (4), 2018 | 52 | 2018 |
Omentum ECM-based hydrogel as a platform for cardiac cell delivery M Shevach, R Zax, A Abrahamov, S Fleischer, A Shapira, T Dvir Biomedical materials 10 (3), 034106, 2015 | 51 | 2015 |
One‐Step 3D Printing of Heart Patches with Built‐In Electronics for Performance Regulation M Asulin, I Michael, A Shapira, T Dvir Advanced Science 8 (9), 2004205, 2021 | 50 | 2021 |