View clinical trials related to Foot Deformities.
Filter by:The use of heel wedges is often recommended as a clinical routine in individuals with foot pronation. However, there is a lack of information for examining the immediate effect of supports used to restore foot biomechanics on balance. The aim of our study is to examine the immediate effect of calcaneal support in the frontal plane on static balance in individuals with increased pronated foot. In this study, the fore-hind foot load distribution in static bipedal stance will be examined in healthy young adults. Then, static balance measurements will be made on one leg with and without support (medial heel wedge). For the evaluation of static balance on one leg, x-y mean, ellipse surface, A-P index measurements and romberg test will be used. In addition, the pain of individuals will be questioned and their foot postures will be evaluated. Healthy young adult individuals with a subtalar angle of 5 degrees and above in the weighted position will be included in the evaluations. Evaluations of the participants are planned to take approximately 15 minutes.
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.
As off-the-counter foot orthoses are readily available and have an economic advantage, they are increasingly being used by healthcare professionals to treat mechanical foot pains in place of custom foot orthosis. However, there is a lack of available evidence to determine if a plain off-the-counter foot orthosis that aims to contours to the foot or a specifically optimized off-the-counter foot orthosis utilizing the type of orthotic design proposed by Abbasian and Pomeroy is more effective in the management of mechanical foot pains in the Subtle Cavus foot type. This study proposal seeks to fill the gap in this area. Primary Aim: To investigate the effectiveness of specifically optimized off-the-counter foot orthosis designed for the Subtle Cavus foot type in improving patient reported outcomes in patients with mechanical foot pains when compared to plain off-the-counter foot orthosis. Primary Null Hypothesis: There is no difference in pain and functional scores reported by patients between specifically optimized off-the-counter foot orthosis and plain off-the-counter foot orthosis in patients with mechanical foot pains at four, eight and twelve weeks of intervention. In our study, the Subtle Cavus foot refers to the flexible idiopathic forefoot-driven Pes Cavus that can be clinically recognised with a positive "Peek a Boo" sign, inverted hindfoot position in weight bearing stance and Positive Coleman Block Test as reported by Manoli and Graham in 2005. Also, for our study, mechanical foot pains are limited to clinically diagnosed Plantar Fasciitis, Achilles Tendinopathy, Peroneal Strain or Metatarsalgia: Plantar Fasciitis is clinically diagnosed using the following history and physical examination findings: - Plantar medial heel pain /or pain along the plantar fascia: most noticeable with initial steps after a period of inactivity but also worse following prolonged weight bearing - Heel pain /or pain along the plantar fascia precipitated by a recent increase in weightbearing activity - Pain with palpation of the proximal insertion of the plantar fascia /or along the band of plantar fascia structure Achilles Tendinopathy is clinically diagnosed using the following history and physical examination findings: Midportion Achilles Tendinopathy: - Self-reported localized pain and perceived stiffness in the Achilles tendon following a period of inactivity (eg, sleep, prolonged sitting) lessen with an acute bout of activity and may increase after the activity. - Symptoms are frequently accompanied by Achilles tendon tenderness. - Pain located 2 to 6 cm proximal to the Achilles tendon insertion that began gradually and pain with palpation of the midportion of the tendon to diagnose midportion Achilles tendinopathy Insertional Achilles Tendinopathy: - Self-reported pain that is aggravated by activity and stiffness that is associated with prolonged periods of rest. - Pain and tenderness with palpation within the distal 2 cm of the Achilles tendon. - Redness and swelling over area of Achilles Tendon insertion over posterior heel Peroneal Strain is clinically diagnosed using the following history and physical examination findings: - Pain and swelling posterior to the lateral malleolus - Pain with active eversion and dorsiflexion against resistance - May have a history of chronic lateral ankle pain and instability - Pain and tenderness with palpation along the course of the peroneal tendons Metatarsalgia is clinically diagnosed using the following history and physical examination findings: - Self-reported pain during the propulsive phase of gait. The pain is localized underneath the prominent metatarsal heads - The plantar soft tissue can be swollen and inflamed. - Presence of hyperkeratosis over tender areas may be present - Pain and tenderness with palpation of plantar metatarsophalangeal joints Secondary Aim: To investigate the effectiveness of specifically optimized off-the-counter foot orthosis designed for the Subtle Cavus foot type in improving patient reported outcomes in patients with mechanical foot pains pre- and post-intervention. Secondary Null Hypothesis: There is no difference in pain and functional scores reported by patients after introduction of specifically optimized off-the counter foot orthosis pre- and post-intervention at initial to four, initial to eight and initial to twelve weeks of intervention.
Manual approach of Hallux Valgus with global postural reeducation.
The study aims to assess foot complications among patients with diabetes in Canada, using patient data collected during diabetes foot assessments performed by the LMC Chiropody Team between February 27, 2018 and April 17, 2019.
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 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.