View clinical trials related to Foot Deformities.
Filter by:Real-life, observational, monocentric, ambispective study, carried out in France. The aim of the study is to evaluate the success rate of orthopedic management of the Z-foot after at least 9 months of follow-up.
Cerebral palsy (CP) is a major cause of disability. Many children with CP develop foot deformities as they grow and these can become painful, adversely affecting their quality of life. The research team has previously studied foot morphology and biomechanics, including analysis of the subtalar joint and has successfully located the joint axis from MRI scans. In this project 25 children will be recruited (15 children with CP and 10 unimpaired control subjects). Each child will attend for a single visit, when they will undergo an MRI scan (with the foot loaded and unloaded) to measure the morphology of the ankle and foot, in particular the subtalar axis alignment. This has not been done before in CP. Each child will have an instrumented gait analysis and musculoskeletal modelling techniques will be used to study the biomechanical action of the external ground reaction force and internal muscle forces. The potential of these forces to rotate the subtalar joint and deform the foot will be assessed, resulting in new insights into potential mechanisms of foot deformity. The children will then be categorised to identify those most at risk, leading to personalised screening measures and treatment strategies in the future.
Patients with diabetes should be thoroughly examined before they are provided with insoles and shoes. In the study the feet are examined with the help of a new software, the D-Foot. D-Foot includes questions and surveys. The aim of the of the study is evaluate how the patients experience the visit at the department of Prosthetics & Orthotics based on the digital foot check.
A combination of diabetes and neuropathy can cause an altered gait, increased tissue stiffness, limited joint mobility, muscle weakness, foot deformities, thus leading to excessive plantar pressure. The presence of an increased plantar pressure and the loss of sensation is a serious risk factor in the risk of development of diabetic foot ulcers (DFU). Therefore, appropriate shoes and insoles are recommended to redistribute high peak pressure (PP) and reduce pressure time integral (PTI) . Shoe modifications and insoles, when used, is effective to prevent the recurrence of plantar ulcer. The primary aim of the study was to: explore gait characteristics, kinetics and kinematics in a cohort of patients diagnosed with diabetes, with and without neuropathy, assigned to use different types of insoles. The second aim was to assess the relation between gait characteristics, kinetics and kinematics to high plantar PP and PTI. The third aim was to compare gait characteristics, kinetics and kinematics of patients with diabetes and healthy controls.
The surgical techniques described in the literature for surgical management of diabetic charcot arthropathy of the foot and ankle include simple exostectomy, open reduction and internal fixation of neuropathic fractures, external fixation, arthrodesis, Achilles tendon lengthening. Patients are followed up at 1 year postoperative by an x-ray of the foot and ankle anteroposterior , lateral and oblique views to assess rate of union ,the correction of deformity by measuring the foot angles . The functional outcome is assessed by the AOFAS scoring system and the diabetic foot ulcer scaoeuulcer scale(18).
The aim of this study is to analyze all of the variables with a Hierarchical Cluster Analysis of Multivariate Statistical Methods to obtain more sensitive results, and also to add a new dimension to the hypothesis included in the study.
Despite the development of the control of DM and the great interest for the complications of the disease, even today the diabetic foot represents a challenge for the orthopaedic surgeon. Being frequently correlated to alteration of the plantar pressures, the surgery treatment is recommended and the Minimally Invasive Surgery (MIS) candidates itself to solve this pathologic case. The purpose of this longitudinal cross-sectional study was to evaluate radiographic and surgical outcomes and the subjective grade of satisfaction of the patients with a diagnosis of chronic plantar diabetic foot ulcers that have been treated at Padua's Orthopaedic Clinic through MIS.
A recent publication (Boulay et al. 2012) highlighted the role of the peroneus longus (PL) muscle in equinus foot deformity in children with hemiplegia. BoNT (Dysport) injections into this muscle have not yet been described in the literature. Based on the results of a previous study, the hypothesis is: this muscle may thus constitute a new therapeutic target for botulinum toxin injections in the early management of spastic equinus in children aged 2 years or older, before the onset of fixed neuro-orthopedic deformity and the midfoot break. The aim of this retrospective study is to describe in intramuscular BoNT (Dysport) injections into PL based on the results obtained in a cohort of children (approximately 30 subjects) with cerebral palsy (hemiplegia or diplegia) and which have been treated in the service since 2007 until July 2012. The investigators results are based on clinical, radiological and video evaluations. For this study, data will be collected in medical folder of each children belonging to this cohort. All children (approximately 30 subjects) with cerebral palsy (hemiplegia or diplegia) which have been treated by BoNT (Dysport) intramuscular injections into PL in the service between 2007 and July 2012 will be screened. Subjects will be selected according to the following defined inclusion and exclusion criteria. Data will be collected retrospectively (using a specific case report form designed for the study) in medical folder of each included subject for all visit of follow-up after BoNT (Dysport) injection into PL (since the first BoNT (Dysport) injection up to 2012). Then, data will be entered in a database. After that, they will be analysed .
Specific aim: To evaluate the outcome of infants who undergo one of two nonsurgical treatment interventions
This is a single arm pilot study in patients requiring surgical fusion in the foot or ankle. Patients will receive map3® Cellular Allogeneic Bone Graft containing donor matched stem cells. This cohort study will enroll 24 patients total at 1 site. After subjects have signed an informed consent, the baseline visit and examinations will be completed. Patients will be evaluated at 2 weeks, 6 weeks, 3 months, 6 months, 12 months, and 24 months after surgery.