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Mehdi Nikkhah

Researcher at Arizona State University

Publications -  117
Citations -  8525

Mehdi Nikkhah is an academic researcher from Arizona State University. The author has contributed to research in topics: Medicine & Self-healing hydrogels. The author has an hindex of 40, co-authored 95 publications receiving 6890 citations. Previous affiliations of Mehdi Nikkhah include Harvard University & Arizona's Public Universities.

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Journal ArticleDOI

Carbon-Nanotube-Embedded Hydrogel Sheets for Engineering Cardiac Constructs and Bioactuators

Su Ryon Shin, +17 more
- 22 Feb 2013 - 
TL;DR: Results indicate that the electrically conductive and nanofibrous networks formed by CNTs within a porous gelatin framework are the key characteristics of CNT-GelMA leading to improved cardiac cell adhesion, organization, and cell-cell coupling.
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Hydrogel bioprinted microchannel networks for vascularization of tissue engineering constructs

Luiz E. Bertassoni, +19 more
- 02 Jun 2014 - 
TL;DR: A three dimensional micromolding technique utilizing bioprinted agarose template fibers to fabricate microchannel networks with various architectural features within photocrosslinkable hydrogel constructs with useful applications in tissue engineering and organs on a chip is reported.
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Engineering microscale topographies to control the cell-substrate interface.

Mehdi Nikkhah, +7 more
- 01 Jul 2012 - 
TL;DR: Recent advances made in biophysical signals have been highlighted and how they have been utilized for neural, cardiac, and musculoskeletal tissue engineering application are highlighted.
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Injectable Graphene Oxide/Hydrogel-Based Angiogenic Gene Delivery System for Vasculogenesis and Cardiac Repair

Arghya Paul, +18 more
- 21 Jul 2014 - 
TL;DR: The current findings suggest the feasibility of a combined hydrogel-based gene therapy system for ischemic heart diseases using nonviral hybrid complex of fGO and DNA.
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Microfabricated Biomaterials for Engineering 3D Tissues

Pinar Zorlutuna, +10 more
- 10 Apr 2012 - 
TL;DR: This review highlights the recent progress in the field of microscale tissue engineering and discusses the use of various biomaterials for generating engineered tissue structures with microscale features for regenerative medicine and biorobotics.