Research Projects
Displaying 201 - 210 of 266
Computational and Mathematical Modeling of Human Knee Joints
Anterior cruciate ligament (ACL) reconstructive surgeries, employing a total of 48 models, were conducted by virtually removing the ACL and then modeling the surgical preparation, tunnel architecture, graft pre-tensioning and fixation angle of a bone-patellar-tendon-bone autograft.
Research Project
Exploring Sex Effects in Rehabilitation Medicine
Recent trials support the therapeutic utility of rTMS where a hyperexcitable unlesioned motor cortex can be targeted with slow frequency stimulation.
Research Project
Intraoperative Hand Measurements
Restoring function and correcting joint deformities.
Research Project
Muscle Injury and Repair
Defining the relationships between muscle injury and muscle repair.
Research Project
Technology Development
We aim to combine clinical observations and lab research to improve understanding of technology embedded into the medical setting and ultimately impacting care.
Research Project
Skeletal Muscle Design in Animals and People
Purpose of skeletal muscle is to produce force and, ultimately, movement. As such, this highly specialized tissue has been studied extensively by bioengineers.
Research Project
COMPLETE: LifeWalker? Upright Laboratory-Based Research Study
The?purpose of this study was to determine the efficacy of the LifeWalker Upright (Model J100) versus a standard rollator and predicate assistive device on gait function in adults using a walker with or without back pain.
Research Project
COMPLETE: Development of a 3D Imaging and Classification System for Exoskeleton Systems
The purpose of this study was to develop a 3D Imaging and Classification System for Exoskeleton Systems.
Research Project
COMPLETE: Andago? Body Weight Supported Gait Training Feasibility
The purpose of this study was to understand the impact of the Andago? gait training device (Hocoma?AG, Switzerland)?applied during clinical inpatient rehabilitation.
Research Project
COMPLETE: Environmental Imaging and Control for Exoskeletons: New Technology
The purpose of this study is to develop an environmental Imaging and Control for Exoskeletons to Improve Safety and Mobility.
Research Project