Development of an anti-crouch, dynamic leg brace
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- Design Excellence Award Winner
Project Overview
Children with spastic diplegia cerebral palsy commonly have a crouched stance and gait due to a forward shift of the center of mass coupled with shortened, taut, weak muscles and muscle spasticity. Currently commercially available braces and ankle foot orthotics used to improve crouch gait are either rigid at the ankle or articulated to allow dorsiflexion and plantarflexion of the ankle. Rigid braces inhibit the development of a more normal walking gait, and articulated braces often allow for excessive flexion, especially during high stress or fatigue. The proposed brace design will include variable resistance to dorsi/plantar flexion to allow for high stability in times of fatigue and less resistance during therapeutic gait training, providing eccentric muscle strengthening and more normal gait kinematics throughout the lower limb. This is a continued project from last Fall where the prototype was built but some aspects of the design need to be more ergonomic and user friendly for the patient. Some of the main areas of focus will be on the resistance bands on the side, the material of the brace itself and the cushion inside to provide comfort to the patient.
Team Picture
Contact Information
Team Members
- Aaron Bishop - Team Leader
- Alex Ehlers - Communicator
- Emily Olszewski - BSAC
- Kyle Koehler - BWIG
- Brady Lundin - BPAG
Advisor and Client
- Prof. Chris Brace - Advisor
- Donita Croft - Client
- Wendy Stewart - Alternate Contact
Related Projects
- Spring 2017: Development of an anti-crouch, dynamic leg brace
- Fall 2016: Development of an anti-crouch, dynamic leg brace
- Spring 2016: Development of an anti-crouch, dynamic leg brace
- Fall 2015: Development of an anti-crouch, dynamic leg brace
- Spring 2015: Development of an anti-crouch, dynamic leg brace
- Fall 2014: Development of an anti-crouch, dynamic leg brace