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Community-Ready Upper Extremity Interactive Rehabilitation
This project develops and refines a clinic-ready therapy system, broadens application areas to other pathologies, and evaluates success outside the lab.
Research Project
Development of Expertise in Use of Exoskeletons for Walking in Individuals with Spinal Cord Injury
this study will both identify the level of competency necessary in various skills for independent use of the ReWalk as well training strategies for this end.
Research Project
Novel tools for in vitro electrophysiology and neurotrauma modeling
We aim to create new technology and techniques for studying physical and neurological trauma, using sensors, heaters, LED and arrays.
Research Project
Modeling effects of common genetic polymorphisms on peripheral nerve injury recovery
Every year, over 200,000 Americans sustain a peripheral nerve injury (PNI). Although peripheral nerves have the ability to spontaneously regenerate, 90% of PNI patients do not regain full motor function. Despite ongoing research, the main treatment for peripheral nerve injury—surgery— continues to be performed without the assistance of any medication or other therapies to enhance the rate of axon regrowth.
Research Project
Electrical stimulation and Botox combination therapy to enhance peripheral nerve regeneration after injury
This project combines two treatments for advancement in peripheral nerve injury to regenerate damaged tissues with Botox and eSTIM.
Research Project
Real Time Control of a Powered Prosthetic Leg Using Implanted EMG Signals with Sensory Feedback
We will conduct a first-in-human clinical trial to evaluate the effect of incorporating intramuscular EMG signals (obtained using a fully wireless implantable system), compared to surface EMG signals, on function ambulation and non-weight-bearing control of a powered leg prosthesis.
Research Project
Intuitively Controlled Virtual Reality System to Treat Phantom Limb Pain
We will develop a commercially viable VR rehabilitation system (called the Coapt PLP Management System) which can be deployed at home or in-clinic for individuals with upper or lower limb amputations.
Research Project
Neuromuscular mechanisms of specific trunk interventions in children with cerebral palsy
The goal of the proposed study is to examine the neuromuscular mechanisms underlying the therapeutic effect of hippotherapy and determine whether repeated exposure to a pelvic perturbation force would be effective in improving trunk postural control and gait of children with cerebral palsy. This study is supported by NIH/NINDS, 1R01NS115487, Date of Project Period: 03/01/2020-02/28/2025
Research Project
16th Annual Aphasia Day in celebration of Aphasia Awareness Month: Presentation by Melanie Drane
The Language of the Heart: Stories, Creativity and Resilience in the Presence of Aphasia. Keynote address by Melanie Drane, MA, MFA, LMFT,
Research Project
Low-Cost Arm System
Prosthetic arm and hand suitable for individuals in the United States who lack adequate insurance or for people in low-income countries with no prosthetic care.
Research Project
"Neurotrauma in a Dish" - An induced pluripotent stem cell-based assay to determine patient specific factors affecting rehabilitation outcomes
Determining if patient induced pluripotent stem cell-derived neurons treated with in vitro neurotrauma can be used to predict clinical outcomes.
Research Project
Collaborative Machines Enhancing Therapies (COMET)
The Collaborative Machines Enhancing Therapies center brings together four research and development projects aimed at improving how patients move.
Research Project