Developments in metallic biodegradable stents H Hermawan, D Dubé, D Mantovani Acta biomaterialia 6 (5), 1693-1697, 2010 | 715 | 2010 |
Fe–Mn alloys for metallic biodegradable stents: degradation and cell viability studies H Hermawan, A Purnama, D Dube, J Couet, D Mantovani Acta biomaterialia 6 (5), 1852-1860, 2010 | 422 | 2010 |
Metals for biomedical applications H Hermawan, D Ramdan, JRP Djuansjah Biomedical engineering-from theory to applications 1, 411-430, 2011 | 406 | 2011 |
Degradable metallic biomaterials: design and development of Fe–Mn alloys for stents H Hermawan, D Dubé, D Mantovani Journal of Biomedical Materials Research Part A: An Official Journal of The …, 2010 | 382 | 2010 |
Iron–manganese: new class of metallic degradable biomaterials prepared by powder metallurgy H Hermawan, H Alamdari, D Mantovani, D Dube Powder Metallurgy 51 (1), 38-45, 2008 | 367 | 2008 |
Design of a pseudo-physiological test bench specific to the development of biodegradable metallic biomaterials J Lévesque, H Hermawan, D Dubé, D Mantovani Acta biomaterialia 4 (2), 284-295, 2008 | 301 | 2008 |
Porous biodegradable metals for hard tissue scaffolds: a review AH Yusop, AA Bakir, NA Shaharom, MR Abdul Kadir, H Hermawan International journal of biomaterials 2012 (1), 641430, 2012 | 255 | 2012 |
Updates on the research and development of absorbable metals for biomedical applications H Hermawan Progress in biomaterials 7, 93-110, 2018 | 252 | 2018 |
Current status and perspectives of zinc-based absorbable alloys for biomedical applications D Hernández-Escobar, S Champagne, H Yilmazer, B Dikici, CJ Boehlert, ... Acta biomaterialia 97, 1-22, 2019 | 234 | 2019 |
Cytotoxicity evaluation of biodegradable Zn–3Mg alloy toward normal human osteoblast cells NS Murni, MS Dambatta, SK Yeap, GRA Froemming, H Hermawan Materials Science and Engineering: C 49, 560-566, 2015 | 206 | 2015 |
Assessing the biocompatibility of degradable metallic materials: state-of-the-art and focus on the potential of genetic regulation A Purnama, H Hermawan, J Couet, D Mantovani Acta Biomaterialia 6 (5), 1800-1807, 2010 | 193 | 2010 |
Bioinspired surface functionalization of metallic biomaterials Y Su, C Luo, Z Zhang, H Hermawan, D Zhu, J Huang, Y Liang, G Li, L Ren Journal of the mechanical behavior of biomedical materials 77, 90-105, 2018 | 183 | 2018 |
The effect of hydrogen gas evolution of magnesium implant on the postimplantation mortality of rats D Noviana, D Paramitha, MF Ulum, H Hermawan Journal of Orthopaedic Translation 5, 9-15, 2016 | 183 | 2016 |
Biodegradable metals: from concept to applications H Hermawan Springer Science & Business Media, 2012 | 157 | 2012 |
Development of degradable Fe-35Mn alloy for biomedical application H Hermawan, D Dubé, D Mantovani Advanced Materials Research 15, 107-112, 2007 | 127 | 2007 |
In vitro and in vivo degradation evaluation of novel iron-bioceramic composites for bone implant applications MF Ulum, A Arafat, D Noviana, AH Yusop, AK Nasution, MRA Kadir, ... Materials Science and Engineering: C 36, 336-344, 2014 | 120 | 2014 |
Polydopamine as an intermediate layer for silver and hydroxyapatite immobilisation on metallic biomaterials surface S Saidin, P Chevallier, MRA Kadir, H Hermawan, D Mantovani Materials Science and Engineering: C 33 (8), 4715-4724, 2013 | 105 | 2013 |
Controlling the degradation kinetics of porous iron by poly(lactic-co-glycolic acid) infiltration for use as temporary medical implants AHM Yusop, NM Daud, H Nur, MRA Kadir, H Hermawan Scientific reports 5 (1), 11194, 2015 | 100 | 2015 |
Influence of thermal treatment on microstructure, mechanical and degradation properties of Zn–3Mg alloy as potential biodegradable implant material MS Dambatta, S Izman, D Kurniawan, S Farahany, B Yahaya, ... Materials & Design 85, 431-437, 2015 | 98 | 2015 |
Process of prototyping coronary stents from biodegradable Fe–Mn alloys H Hermawan, D Mantovani Acta biomaterialia 9 (10), 8585-8592, 2013 | 96 | 2013 |