Pediatric forearm and wrist fractures are common; furthermore, some are displaced and require manipulation and reduction. The procedure is commonly performed without real-time image guidance and evaluated radiographically after reduction and casting, leading to multiple reduction attempts and malalignment. Although fluoroscopy can provide real-time assessment of fracture alignment during the procedure, it is not readily available in many emergency departments (EDs) and involves radiation exposure. Ultrasonography is an alternative real-time imaging modality that is inexpensive and readily available. The purpose of this study was to determine whether the use of real-time bedside sonography during closed reduction of distal and middle third forearm fractures can decrease the number of reduction attempts and reduce the number of patients requiring surgery. We compared the results of a conventional blind manipulation, fracture reduction, and casting to fracture reduction under real-time ultrasonographic guidance, in patients treated in our ED between 2014 and 2016. Overall, 458 patients with distal or middle third fractures were included. Of these reductions, 289 were performed without real-time imaging (group 1) and 169 under real-time ultrasound guidance (group 2). In group 1, 10% of patients required re-reduction, and 5% of patients needed surgery. In group 2, only one patient (0.6%) required re-reduction and 1% of patients required surgery due to fracture instability. In conclusion, the current study shows that real-time ultrasound-guided forearm fracture reduction is an effective and inexpensive method for correction of displaced forearm and wrist fractures in children, which does not involve any radiation exposure.
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