Ellen T. Roche, Ph.D.
Affiliations: | 2017- | Institute for Medical Engineering and Science | Massachusetts Institute of Technology, Cambridge, MA, United States |
Area:
Medical Devices, Soft Robotics, BiomaterialsWebsite:
https://imes.mit.edu/people/faculty/ellen-roche/Google:
"Ellen Roche"Parents
Sign in to add mentor| David J. Mooney | grad student | Harvard (Chemistry Tree) | |
| Conor J. Walsh | grad student | Harvard (BME Tree) |
Collaborators
Sign in to add collaborator| Katia Bertoldi | collaborator | Harvard (Biomechanics Tree) | |
| Xuanhe Zhao | collaborator | MIT |
BETA: Related publications
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Publications
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| Park C, Singh M, Saeed MY, et al. (2024) Biorobotic hybrid heart as a benchtop cardiac mitral valve simulator. Device. 2 |
| Singh M, Teodorescu DL, Rowlett M, et al. (2023) A Tunable Soft Silicone Bioadhesive for Secure Anchoring of Diverse Medical Devices to Wet Biological Tissue. Advanced Materials (Deerfield Beach, Fla.). e2307288 |
| Beatty R, Mendez KL, Schreiber LHJ, et al. (2023) Soft robot-mediated autonomous adaptation to fibrotic capsule formation for improved drug delivery. Science Robotics. 8: eabq4821 |
| Rosalia L, Ozturk C, Wang SX, et al. (2023) Soft robotics-enabled large animal model of HFpEF hemodynamics for device testing. Biorxiv : the Preprint Server For Biology |
| Mendez K, Whyte W, Freedman BR, et al. (2023) Mechanoresponsive drug release from a flexible, tissue-adherent, hybrid hydrogel actuator. Advanced Materials (Deerfield Beach, Fla.). e2303301 |
| Lee Y, Koehler F, Dillon T, et al. (2023) Magnetically Actuated Fiber-Based Soft Robots. Advanced Materials (Deerfield Beach, Fla.). e2301916 |
| Rosalia L, Ozturk C, Goswami D, et al. (2023) Soft robotic patient-specific hydrodynamic model of aortic stenosis and ventricular remodeling. Science Robotics. 8: eade2184 |
| Ozturk C, Schmid Daners M, Zhao X, et al. (2022) Editorial: Cardiovascular engineering. Frontiers in Cardiovascular Medicine. 9: 1089794 |
| Rosalia L, Ozturk C, Coll-Font J, et al. (2022) A soft robotic sleeve mimicking the haemodynamics and biomechanics of left ventricular pressure overload and aortic stenosis. Nature Biomedical Engineering |
| Whyte W, Goswami D, Wang SX, et al. (2022) Dynamic actuation enhances transport and extends therapeutic lifespan in an implantable drug delivery platform. Nature Communications. 13: 4496 |