View clinical trials related to Foot Deformity.
Filter by:The main purpose of this study is to find out if scanning the foot using a 3D scanner influences the effectiveness of custom made insoles, compared to the more traditional approach of taking a foam-box impression cast of the foot. Both of these methods are currently used as standard care in the NHS Greater Glasgow and Clyde (GGC) Orthotic Department. In this study, insoles will be manufactured either from a direct 3D scan of the foot, or from a foam-box impression cast, and a series of questionnaires will be used to measure any changes in foot pain and foot function. The results from this study will be used to develop an information resource for both patients and Orthotists which will fill gaps in our current knowledge and hopefully guide us further in providing the best possible care for future patients who require insoles.
The American Orthopedic Foot and Ankle Society hallux metatarsophalangeal-interphalangeal joint scale (AOFAS Hallux MTP-IP) is originally developed in English to evaluate the pain, function and alignment in patients with hallux deformities. The purpose of this study is to translate and cross-culturally adapt the AOFAS Hallux MTP-IP scale into Turkish and investigate its psychometric properties.
We evaluated the feasibility of the GlideSoft™ novel insole to reduce pressure and shear forces on the foot. No commercially available insoles are designed to reduce shear. Although insurance providers spend millions on diabetics’ therapeutic insoles, there is no scientific data about shear or pressure reduction. We will evaluate the optimal bonded materials from Phase I compared to the Glidesoft™ design using the same combination of viscoelastic materials. We evaluate 2 patient groups of 150 patients per arm (300 total) in an 18 month trial. The control group patient arm wore a traditional bonded insole whereas another the second arm receive the GlideSoft™. At baseline, and at the end of the 18 month trial, in-shoe gait lab and in vitro biomechanical parameters measured pressure, shear, and material properties as these changed with wear. This Phase II eighteen (18) month clinical trial evaluated the effectiveness of ShearSole™ reducing the incidence of diabetic ulcers. The overall study hypothesis was that GlideSoft™ provides significant shear reduction as compared to traditional insoles without sacrificing pressure reduction characteristics or durability.