View clinical trials related to Flatfoot.
Filter by:Pes planus is a foot deformity characterized by a low medial longitudinal arch. It is more common in young adults. With low arch, tension occurs in the plantar fascia. Fascia and soft tissue loading may lead to different musculoskeletal problems such as plantar fasciitis, medial tibial stress syndrome, patellofemoral disorders and back pain. In addition, pes planus can affect individuals' activities of daily living, productivity in occupational settings, and injury risk and performance in sports. Treatment of pes planus includes strengthening, stretching, taping and orthotics for the foot muscles. Among these applications, strengthening of the foot core muscles is one of the most common and effective methods. By strengthening the foot core muscles, it is aimed to reduce the effect of the kinetic chain. Pes planus is a postural deformity that affects the kinetic and fascial chain, but the treatment program is usually planned regionally. With fascial continuity and fascial conduction, the tension on the plantar fascia in pes planus affects the gastro-soleus, peroneus longus and brevis, hamstring muscles, iliotibial band and thoracolumbar fascia. Stretching of the plantar fascia, which is included in current treatment programs, has only a local effect and thus cannot prevent fascial chain involvement. Myofascial release, one of the methods used to reduce the tension in the fascia, has been used frequently in recent years. Myofascial release is performed with methods such as manual, foam roller and instrument assisted release. Foam roller (cylinder foam) is a practical myofascial release method that can be self-applied by the individual. In addition to strengthening the intrinsic muscles of the foot in individuals with pes planus, it has been reported that fascial chain involvement should also be taken into consideration due to the tension in the plantar fascia with low arch. This study was planned to investigate the effect of myofascial release methods on lower extremity performance in addition to foot core exercises used effectively in the treatment of pes planus.
This study aims to determine comparative effects of low dye taping technique and temporary felt insoles on pain and disability in children with pes planus.
Pes Planus is characterized by the descent of the medial longitudinal arch, eversion of the hindfoot, and dorsiflexion and abduction of the midfoot. Disorders in the bones of the foot, dysfunction of the tibialis posterior muscle, shortness of the Achilles tendon or weakness in the muscles may pose a risk for pes planus. In a study in which 80 female participants aged 65 and over participated voluntarily, it was shown that 90% of the deformities seen in the foot were pes planus. In another study conducted with adults aged 18-21 years, pes planus was found with a rate of 13.6%. In a study in a group of 500 people aged 18-25 years, this rate was found to be 29%. Since exercise, physical activity and walking for a long time will cause foot and leg pain in people with pes planus, the level of physical activity of these people may be limited. There are studies examining the relationship between pes planus and different physical parameters. It has been determined as a result of some studies that the balance, which is one of these parameters, is negatively affected by the presence of pes planus. According to the literature, many studies have used the Y test in the evaluation of dynamic balance in individuals with pes planus. However the reliability of the Y Balance Test, which is a valid and reliable method for assessing balance in healthy individuals, has not been found in individuals with pes planus.
Individuals with foot-ankle problems (plantar fasciitis, metarsalgia, pes planus, pes planovalgus/varus) will be included in the study. Permission was obtained from the research group that developed the scale to use the Original Foot Posture Index-6 (FPI-6). Cross-cultural adaptation of the FPI-6 will be made in line with the guidelines published by Ruberto and Beaton. First of all, the FPI-6 will be translated into Turkish by two translators whose native language is Turkish and who can speak English at an advanced level. Translations will be compared and discussed, and a Turkish version will be obtained with the equivalents that best represent each item in the texts. Secondly, this retranslated text will be independently translated back into English by two native English translators. In the third stage, two texts written in English will be synthesized by the authors, thus reaching a consensus on a single translation. Finally, the inconsistent parts of the text will be checked by a multidisciplinary team consisting of two native English-speaking translators, members of the English language and literature department, authors who developed the scale, and physiotherapists. Two independent physiotherapists will evaluate the participants' foot posture indexes by FPI-6 for inter-rater reliability. In addition, patients' quality of life, foot functions, hindfoot profiles will be evaluated. For the calculation of validity between measurements, rater-1 will apply the FPI-6 again to the same participants after 15 days for intra-rater reliability. Patients' functional independence, activities of daily living, and quality of life will also be evaluated for criterion validity. American Orthopedic Foot and Ankle Society-AOFAS, SF-36 and Foot Function Index questionnaires will be applied for the validity of FPI-6.
Pes planus; It can be defined as the valgus of the hindfoot while loading the foot, the disappearance of the medial longitudinal arch in the midfoot, and the supination of the forefoot relative to the hindfoot. It may also occur due to the fact that the medial longitudinal arch in the foot is lower than the required height according to the anatomical position. The parts of the foot that touch the ground are anatomically healthy in a person; They are the heads of the calcaneus tuberositas calcanei on the back of the foot and the 5 metatarsal bones on the front of the foot. In the standing position, 25% of our body weight is on the tuber calcanei, while 25% is on the 5 metatarsal bones. In individuals with pes planus, convergence of the sole of the midfoot to the ground may even result in the sole of the midfoot touching the ground at its advanced levels. It is one of the common foot deformities.
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 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.
Pes planus is a deformity called "flatfoot" and is defined as the valgus of the hindfoot while loading the foot, the disappearance of the medial longitudinal arch in the midfoot, and the supination of the forefoot relative to the hindfoot. The aim of this study is to compare the subtalar angle, q angle, trunk muscle endurance, and performance of individuals with pes planus and healthy controls. Volunteer students between the ages of 18-35 will be included among the students studying at the Health Sciences University Gülhane Faculty of Physiotherapy and Rehabilitation. The feet of individuals who want to be included in the study will be examined by the researchers with the navicular drop test and the presence of pes planus will be determined according to this test. Subtalar Angle to determine the degree of rotation (Varus/Valgus) in the hindfoot, Q Angle for knee biomechanics, Navicular Drop Test to determine flat feet, Mcgill trunk Flexion, Extension, and Lateral Bridge Test to evaluate trunk endurance, Xbox to evaluate lower and upper extremity performance 360Kinectâ„¢ game console will be used. In this study, statistical analyzes will be made with SPSS 21 package program (IBM Corp., Armonk, NY, USA). Wilcoxon test or Mann Whitney U will be used after determining the conformity to the normal distribution in the comparison of the values before and after the exercises, individuals with and without flat feet. Results will be evaluated at the significance level of p<0.05. Cohen's d values will be calculated to determine the study effect size.
Pes planus, sometimes known as flat feet, is one of these disorders and is characterized by a collapsed medial longitudinal arch, hindfoot eversion, and forefoot abduction. Pes planus is a musculoskeletal condition that causes hip, knee, and foot discomfort. According to a descriptive cross-sectional survey, 17% of school-aged children, 64% men and 34% females have flat foot deformity. Talonavicular joint is responsible for translating inversion and eversion movements of the foot. Mobilization of the Talonavicular joint helps in the improvement of joint dysfunction caused by inappropriate or bad posture via the proprioceptors. Rigid tape also known as low dye tape is defined as non-elastic zinc oxide tape used by physical therapists to stabilize a joint and limit movement. The conventional rigid tape is frequently used with non-contractile tissue, which then acts similarly to a ligament to limit joint mobility and prevent joints from moving into dangerous or end range positions.
Inverted orthosis is a type of rigid foot orthosis that was designed to aid in controlling high degrees of foot pronation. It is essential to administer patients foot orthoses with different inverted angles, with higher angles prescribed when greater reduction of foot pronation is indicated. However, there is shortage of clinical knowledge regarding the inverted angle in terms of biomechanical changes. The aim of this study is to investigate the effect of different inverted angles of foot orthoses on the walking kinematics in females with flexible flatfeet.