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Foot Injuries clinical trials

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NCT ID: NCT06300671 Recruiting - Clinical trials for Lower Extremity Problem

The Effect of Subtalar Joint Pronation Amount on Lower Extremity Alignment and Performance

Start date: December 15, 2023
Phase: N/A
Study type: Interventional

The lower extremity consists of segments that can be affected by the relative position of each other. Deviation of one segment from its normal alignment in the lower extremity also affects the alignment of other segments. The hip joint can affect the frontal plane alignment from proximal to distal, while the foot and ankle complex can also affect it from distal to proximal. Increased subtalar joint pronation in the kinetic chain from distal to proximal; is associated with decreased dorsiflexion angle and increased frontal plane projection angle. It has been shown that ankle dorsiflexion limitation causes changes in the biomechanics and kinematics of landing after jumping, but no study examining the effect of foot pronation on jump tests has been found in the literature. Since the foot is located at the most distal point and acts as a support base for the kinematic chain, the smallest dynamic change in the foot affects the balance of the whole body. Due to foot pronation, changes in the sole contact surface may make it difficult for the foot to adapt to the ground, balance and postural stabilization may be adversely affected, and an increase in the workload of the muscles around the joint may be observed. In another study, it is mentioned that there is limited evidence about the effect of foot posture on postural stability. Although there are studies in the literature examining the effects of subtalar joint pronation on lower extremity alignment and postural stability, studies need to examine the effects of different subtalar joint pronation amounts on lower extremity alignment, jumping performance, and postural stability. Our study will contribute to the literature with this aspect.

NCT ID: NCT06242002 Recruiting - Foot Injury Clinical Trials

Early Post-operative Monitoring by Sensor of Patients Undergoing Forefoot Surgery

Start date: January 19, 2024
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to evaluate the monitoring using a sensor in patients who have undergone forefoot surgery, during the first 7 post-operative days. The monitoring tool has a Global Positioning System (GPS) beacon, a 3-axis accelerometer and a temperature sensor, as well as an "emergency call" button. The main objective it aims to answer are: - to evaluate the feasibility of post-operative monitoring using this tool - to evaluate the reliability of the tool The investigators hope to determine if using this tool can be able to provide patients a "connected" personalized real-time monitoring for follow-up.

NCT ID: NCT06233565 Recruiting - Clinical trials for Ankle Injuries and Disorders

Dexamethasone vs. Dexmedetomidine for Popliteal Nerve Block in Pain Management After Pediatric Ankle and Foot Surgery

Start date: February 9, 2024
Phase: Phase 4
Study type: Interventional

Effect of perineurial dexamethasone and dexmedetomidine on popliteal nerve block duration for pediatric, ankle or foot surgery

NCT ID: NCT05555459 Recruiting - Hallux Valgus Clinical Trials

Performance and Safety Evaluation of Inion CompressOn Screw in Foot and Ankle Surgeries. PMCF Investigation

Start date: September 28, 2022
Phase: N/A
Study type: Interventional

The study in question is a post market clinical follow up (PMCF) study to evaluate the safety and performance of bioabsorbable headless compression screw Inion CompressOn in selected fracture, osteotomy and arthrodeses operations of the foot and ankle. The study recruits 125 adult patients who meet the acceptance criteria. The follow-up time for each study patient is 4 years. The study is a single center single group study which is conducted in Tampere University Hospital (TAYS) in Finland. The main focus of the study in terms of performance is to evaluate the bone healing/ossification of operated areas. The main focus of the study in terms of safety is to evaluate the occurrence of adverse events and required revision surgeries that are or might be related to the study device.

NCT ID: NCT04623853 Recruiting - Lower Limb Fracture Clinical Trials

Investigating Auto Adjusting Dynamic AFO

Start date: November 30, 2020
Phase: N/A
Study type: Interventional

Offloading Ankle Foot Orthoses (AFOs) are devices designed for people following lower-limb reconstruction to restore mobility by reducing mechanical loading through the injury site and redistributing it proximally. While they perform well for some users, their current form limits full functional potential and may put joints proximal to the injury at risk of long-term damage. This study is directed toward designing and testing a lightweight, variable stiffness, dynamic brace that can adjust in response to user activity.