2 Clinical Trials for Various Conditions
It is recognized that fractures of the distal radius and forearm occur in approximately one in 100 children and adolescents every year. Though closed manipulation and cast immobilization of displaced injuries is the mainstay of treatment in the majority of cases, the optimal type of cast remains debatable. Though well-molded casts theoretically provide the best ability to maintain fracture alignment, risks of circumferential immobilization in acute injuries include neurovascular compromise. Splitting, or bivalving, casts may reduce these risks, but the effect on fracture stability is unknown. The proposed investigation seeks to address the simple question of whether circumferential or bivalved casts provide the best outcomes.
The aim of the study is to determine by multicenter randomized controlled trial whether short arm fiberglass casts are as effective as long arm casts for immobilizing displaced pediatric distal third forearm fractures that have undergone closed reduction. The primary outcome is loss of reduction requiring cast wedging, recasting, repeat reduction, or surgical intervention. Secondary outcomes will include Patient Reported Outcome Measures for physical function, such as Pedi-FABS, PROMIS (Patient Reported Outcomes Measurement Information System) Upper Extremities , and UCLA (University of California Los Angelos) Activity Scale, and pain/comfort levels,such as PROMIS Pediatric Pain Interference, PROMIS Pediatric Pain Intensity, and VAS ( Visual Analogue Scale) comfort in cast. In addition, secondary outcomes include complications (skin irritation, compartment syndrome, elbow stiffness, cast saw burns etc). The investigators will assess potential risk factors for loss of reduction including initial displacement, level of fracture (physeal, metaphyseal, meta-diaphyseal), initial translation, initial angulation, age, sex, cast index, padding index, adequacy of initial reduction, and provider level of training.