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Kynan Eng

Affiliations: 
Institute of Neuroinformatics ETH/Uni Zurich, Zürich, Zürich, Switzerland 
Area:
motor rehabilitation, tactile sensing, human-machine interaction
Website:
http://www.ini.ethz.ch/~kynan
Google:
"Kynan Eng"
Mean distance: 13.93 (cluster 17)
 
SNBCP

Parents

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Rodney J. Douglas grad student 2000-2004 ETH/Uni Zurich
Daniel C. Kiper post-doc 2005-2007 ETH/Uni Zurich
Kevan A. Martin post-doc 2006-2007 ETH/Uni Zurich

Children

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Michael Villiger grad student 2009-2012 ETH/Uni Zurich

Collaborators

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Tobi Delbruck collaborator 2000- ETH/Uni Zurich
Giacomo Indiveri collaborator 2008- ETH/Uni Zurich
Daniel C. Kiper collaborator 2008-
BETA: Related publications

Publications

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Schuster-Amft C, Eng K, Suica Z, et al. (2018) Effect of a four-week virtual reality-based training versus conventional therapy on upper limb motor function after stroke: A multicenter parallel group randomized trial. Plos One. 13: e0204455
Villiger M, Liviero J, Awai L, et al. (2017) Home-Based Virtual Reality-Augmented Training Improves Lower Limb Muscle Strength, Balance, and Functional Mobility following Chronic Incomplete Spinal Cord Injury. Frontiers in Neurology. 8: 635
Brand J, Michels L, Bakker R, et al. (2017) Neural correlates of visuomotor adjustments during scaling of human finger movements FMRI during visuomotor scaling of finger movements. The European Journal of Neuroscience
Brand J, Piccirelli M, Hepp-Reymond MC, et al. (2017) Correction: Virtual Hand Feedback Reduces Reaction Time in an Interactive Finger Reaching Task. Plos One. 12: e0176655
Brand J, Piccirelli M, Hepp-Reymond MC, et al. (2016) Virtual Hand Feedback Reduces Reaction Time in an Interactive Finger Reaching Task. Plos One. 11: e0154807
Villiger M, Grabher P, Hepp-Reymond MC, et al. (2015) Relationship between structural brainstem and brain plasticity and lower-limb training in spinal cord injury: a longitudinal pilot study. Frontiers in Human Neuroscience. 9: 254
Schuster-Amft C, Henneke A, Hartog-Keisker B, et al. (2015) Intensive virtual reality-based training for upper limb motor function in chronic stroke: a feasibility study using a single case experimental design and fMRI. Disability and Rehabilitation. Assistive Technology. 10: 385-92
Schuster-Amft C, Eng K, Lehmann I, et al. (2014) Using mixed methods to evaluate efficacy and user expectations of a virtual reality-based training system for upper-limb recovery in patients after stroke: a study protocol for a randomised controlled trial. Trials. 15: 350
Villiger M, Estévez N, Hepp-Reymond MC, et al. (2013) Enhanced activation of motor execution networks using action observation combined with imagination of lower limb movements. Plos One. 8: e72403
Villiger M, Bohli D, Kiper D, et al. (2013) Virtual reality-augmented neurorehabilitation improves motor function and reduces neuropathic pain in patients with incomplete spinal cord injury. Neurorehabilitation and Neural Repair. 27: 675-83
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