Articles with public access mandates - Mehdi NikkhahLearn more
Not available anywhere: 9
Emerging biofabrication strategies for engineering complex tissue constructs
RD Pedde, B Mirani, A Navaei, T Styan, S Wong, M Mehrali, A Thakur, ...
Advanced Materials 29 (19), 1606061, 2017
Mandates: US National Institutes of Health, Natural Sciences and Engineering Research …
Gold nanorod-incorporated gelatin-based conductive hydrogels for engineering cardiac tissue constructs
A Navaei, H Saini, W Christenson, RT Sullivan, R Ros, M Nikkhah
Acta biomaterialia 41, 133-146, 2016
Mandates: US National Institutes of Health
Nanoreinforced hydrogels for tissue engineering: biomaterials that are compatible with load‐bearing and electroactive tissues
M Mehrali, A Thakur, CP Pennisi, S Talebian, A Arpanaei, M Nikkhah, ...
Advanced Materials 29 (8), 1603612, 2017
Mandates: Danish Council for Independent Research, Villum Foundation
A three dimensional micropatterned tumor model for breast cancer cell migration studies
N Peela, FS Sam, W Christenson, D Truong, AW Watson, G Mouneimne, ...
Biomaterials 81, 72-83, 2016
Mandates: US National Science Foundation, US National Institutes of Health
Gelatin‐based biomaterials for tissue engineering and stem cell bioengineering
M Nikkhah, M Akbari, A Paul, A Memic, A Dolatshahi‐Pirouz, ...
Biomaterials from nature for advanced devices and therapies, 37-62, 2016
Mandates: US National Science Foundation, US National Institutes of Health, Fonds de …
Bioprinting technologies for disease modeling
A Memic, A Navaei, B Mirani, JAV Cordova, M Aldhahri, ...
Biotechnology letters 39, 1279-1290, 2017
Mandates: US National Science Foundation
Polymeric biomaterials for implantable prostheses
TT Dang, M Nikkhah, A Memic, A Khademhosseini
Natural and synthetic biomedical polymers, 309-331, 2014
Mandates: US National Institutes of Health
Wireless passive stimulation of engineered cardiac tissues
S Liu, A Navaei, X Meng, M Nikkhah, J Chae
ACS sensors 2 (7), 1006-1012, 2017
Mandates: US National Science Foundation
Fabrication Method of a High-Density Co-Culture Tumor–Stroma Platform to Study Cancer Progression
H Saini, M Nikkhah
Programmed Morphogenesis: Methods and Protocols, 241-255, 2021
Mandates: US National Science Foundation
Available somewhere: 48
Hydrogel bioprinted microchannel networks for vascularization of tissue engineering constructs
LE Bertassoni, M Cecconi, V Manoharan, M Nikkhah, J Hjortnaes, ...
Lab on a Chip 14 (13), 2202-2211, 2014
Mandates: US National Institutes of Health, Australian Research Council
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
Mandates: US National Institutes of Health
Engineering microscale topographies to control the cell–substrate interface
M Nikkhah, F Edalat, S Manoucheri, A Khademhosseini
Biomaterials 33 (21), 5230-5246, 2012
Mandates: US National Institutes of Health
Injectable graphene oxide/hydrogel-based angiogenic gene delivery system for vasculogenesis and cardiac repair
A Paul, A Hasan, HA Kindi, AK Gaharwar, VTS Rao, M Nikkhah, SR Shin, ...
ACS nano 8 (8), 8050-8062, 2014
Mandates: US National Institutes of Health, Fonds de recherche du Québec - Santé
Self‐healing hydrogels: the next paradigm shift in tissue engineering?
S Talebian, M Mehrali, N Taebnia, CP Pennisi, FB Kadumudi, J Foroughi, ...
Advanced Science 6 (16), 1801664, 2019
Mandates: Australian Research Council, Danish Council for Independent Research, Villum …
Reduced graphene oxide‐gelMA hybrid hydrogels as scaffolds for cardiac tissue engineering
SR Shin, C Zihlmann, M Akbari, P Assawes, L Cheung, K Zhang, ...
Small 12 (27), 3677-3689, 2016
Mandates: US National Science Foundation, US National Institutes of Health
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
Mandates: US National Institutes of Health
Vascularized bone tissue engineering: approaches for potential improvement
LH Nguyen, N Annabi, M Nikkhah, H Bae, L Binan, S Park, Y Kang, ...
Tissue Engineering Part B: Reviews 18 (5), 363-382, 2012
Mandates: US National Institutes of Health
PGS: Gelatin nanofibrous scaffolds with tunable mechanical and structural properties for engineering cardiac tissues
M Kharaziha, M Nikkhah, SR Shin, N Annabi, N Masoumi, AK Gaharwar, ...
Biomaterials 34 (27), 6355-6366, 2013
Mandates: US National Institutes of Health
Tough and flexible CNT–polymeric hybrid scaffolds for engineering cardiac constructs
M Kharaziha, SR Shin, M Nikkhah, SN Topkaya, N Masoumi, N Annabi, ...
Biomaterials 35 (26), 7346-7354, 2014
Mandates: US National Institutes of Health
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
Mandates: US National Institutes of Health
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