View clinical trials related to Equinus Deformity.
Filter by:This study will examine the use of a novel customized Ankle Foot Orthosis (AFO), created using 3D scanning, with children being treated for clubfoot. The AFO is inserted in the standard Mitchell shoe during bracing, following Ponseti casting. The investigators hypothesize that following Ponseti casting, the implementation of customized AFOs with Ponseti bracing will improve patient compliance and functional outcomes as well as lead to fewer relapses in comparison to the standard bracing with Mitchell shoes.
This research will lead to the first evaluation of intrinsic and dynamic joint and muscle mechanics of equinus in cerebral palsy. It would provide a direct cause and effect relationship between equinus and bone deformity. Mechanical insights to the pathophysiology of the targeted muscles will lead to better understanding and, thus, to a better medical and surgical management of equinus deformity. Secondary aim will provide an important insight whether key gait parameters can be exclusively relied upon for surgical treatment planning and evaluation. In a medium-term perspective, depending upon the results of this study, dynamic MRI of the ankle joint may serve as a guiding tool for fixed equinus surgery in case of cerebral palsy.
The purpose of this study is to determine if botulinum toxin type A (Botox) injections, at the time of surgery for pilon fractures, will improve ankle range-of-motion and functionality.
The purpose of this study is to determine if the Ankle Dorsiflexion Dynasplint System (DS) is effective in treating contracture for patients with Ankle Equinus secondary to diabetes mellitus.