View clinical trials related to Distal Radius Fractures.
Filter by:Across orthopedics, the investigators will be using the generic volar locking plates for patients undergoing open reduction and internal fixation (ORIF) of the distal radius using a block schedule, meaning one month we the generic implants and one month we use conventional implants from the surgeon's brand of choice. At the end of each month the health system will switch which type of implants (generic vs. conventional) they will use at their facilities. From a quality perspective each patient will be monitored both short and long term for complication and reoperation. This will be done through chart review.
Objectives: To compare the cast index and three-point index measurements obtained using computed tomography (CT) with those acquired using conventional methods for treating distal radius fractures Design: A retrospective cohort study Setting: Level 1 trauma center Patients: One hundred and thirteen (45 men and 68 women) patients with distal radius fractures Interventions: Patients with distal radius fractures were retrospectively analyzed and received either conservative cast treatment or surgical intervention through open reduction and internal fixation between 2016 and 2022. Main outcome measurements: The study evaluated the cast index and three-point index in the cast-treated group and their effectiveness using the Sarmiento index. Furthermore, radial height, volar tilt, and radial inclination were compared between the surgically treated and cast-treated groups.
When determining the treatment method to be applied in distal radius fracture (DRF), in addition to clinical and radiological evaluation, the patient's age, physical activity level, cognitive status, severity of trauma, mechanism of injury and type of fracture are important factors in the treatment plan. Clinical studies show that physiotherapy is useful in improving the limitation of movement and pain in DRF. It shows that the active movement level is increased by decreasing the level. Rehabilitation after surgery proceeds similarly to conservative treatment. When exercise approaches in the literature are examined, it is seen that specific exercises for the wrist and forearm are recommended for treatment, but it has been reported that there are not enough studies to constitute evidence value. For decades, the skeletal muscles of the human body have been characterized as independent structures. However, recent research supports the "single muscle theory", contrary to this classical view. According to this theory, the fascia tissue that covers the entire body connects the muscles to each other in the form of chains, and the muscles in the chain work together in performing functional movements. These chains are called myofascial chains. Fascia tissue that creates all these connections; It consists of tightly arranged connective tissue and is structurally similar to tendons and ligaments. It surrounds organs, muscles, vessels and nerves, connects tissues and allows them to slide and move over each other. Past histological studies have reported that there are also contractile cells in the fascia structure. Although there are problems in rehabilitation after DRF that go beyond a single segment and affect the whole body; There is no study in the literature that uses the myofascial chain exercises approach in the treatment of these problems. In the light of all this information, the thesis study aims to ensure the active participation of the upper body muscles in the rehabilitation process with the DRUK program planned with myofascial chain exercises and in this way to improve the functional level obtained as a result of rehabilitation.
The goal of this surgeon survey is to find out if orthopedic and trauma surgeons can predict outcomes in older adults with distal radius fractures. The main questions it aims to answer are: - Can orthopedic and trauma surgeons effectively predict which treatment would benefit a patient the most in terms of good outcome versus poor outcome (based on Δ PRWE) following casting or surgical treatment for displaced intra-articular distal radius fractures? - What are the perspectives of trauma surgeons and orthopedic surgeons on current literature? - What factors direct trauma surgeons and orthopedic surgeons to surgery?
A prospective, randomized controlled single-center trial with 80 patients aged 50 years and above to compare the functional and radiological results of conservative treatment and volar fixed-angle plating in the management of distal radius fracture
The purpose of the study is to evaluate the sensitivity and specificity of using a diagnostic musculoskeletal ultrasound in pediatric distal radius fractures in an outpatient setting. Ultrasound reliability and accuracy will be tested. The result of the diagnostic ultrasound will be compared to x-ray diagnosis under routine conditions in the investigator's injury and fracture treatment evening clinic. Data will be collected and recorded during the duration of the 12 week study. Through the literature review and experience with ultrasound, the investigators anticipate that diagnostic ultrasound will provide very high sensitivity and specificity in diagnosing distal radius fractures in children.
Distal Radius Fractures are among the most common orthopedic injuries. Rehabilitation may be characterized by pain, stiffness, swelling, and decreased range of motion (hand and fingers), and grip strength. Compression gloves are used to enhance rehabilitation after various clinical conditions and injuries. However, there are no reports on the effect of compression gloves following Distal Radius Fracture (DRF). This study aims to assess the incremental effect of wearing Made-to-Measure Compression Gloves on rehabilitation following DRF. Working Hypothesis: The addition of Made-to-Measure Compression Gloves to routine follow up and treatment will enhance rehabilitation, when compared with routine follow up and treatment, in patients following Distal Radius Fracture. ICD 10, Version 2010, conditions to be included in the study (defined jointly as Distal Radius Fractures): S52.5 Fracture of lower end of radius (Colles' fracture, Smith's fracture) S52.6 Fracture of lower end of both ulna and radius S52.7 Multiple fractures of forearm Excl.: fractures of both ulna and radius: lower end (S52.6), shafts (S52.4). S52.8 Fracture of other parts of forearm (Lower end of ulna, Head of ulna)
The treatment of unstable, non-reducible distal radial fractures is still controversial. The aim of the present study is to compare the subjective, clinical and radiographic outcome of the TriMed fragment-specific system with a volar locking plate in patients with unstable, non-reducible and also redislocated distal radial fractures.
The purpose of this study is to evaluate if poor bone quality increases the risk of specific types of treatment complications in patients with distal radius fractures treated with open reduction and Locking Compression Plates(LCP).
The purpose of this study is to is to evaluate the postoperative loss of reduction rate in patients with distal radius fractures treated using the 2.4 mm Variable Angle LCP Two-Column Volar Distal Radius Plate ®.