Ultrasound-assisted closed reduction and percutaneous pinning for displaced and rotated lateral condylar humeral fractures in children

Background: It is difficult for surgeons to successfully perform closed reduction and percutaneous pinning on displaced and rotated lateral condylar humeral fractures in children. This study aimed to introduce an ultrasound-assisted closed reduction and percutaneous pinning technique and determine its usefulness in the treatment of displaced and rotated lateral condylar humeral fractures in children.

Methods: Between 2013 and 2018, 42 of 44 displaced and rotated pediatric lateral humeral condylar fractures were successfully treated with ultrasound-assisted closed reduction and percutaneous pinning. All surgical procedures were performed by 1 senior surgeon. Demographic and clinical data including age, sex, affected side, time from injury to reduction, operative time, and number of intraoperative radiographs (without fluoroscopy) were analyzed. Postoperative data were evaluated in terms of Kirschner wire in situ duration, follow-up duration, range of motion, carrying angle, cosmetic result, and complications.

Results: The average operative time was 67 minutes from 2013 to 2015 and 51 minutes from 2016 to 2018. All 42 patients who successfully underwent ultrasound-assisted closed reduction were followed up for >3 months, and 31 of 42 patients were followed up for >1 year. Among these 31 patients, the range-of-motion outcomes were excellent in 25 and good in 6. The carrying angle outcomes were excellent in 28 patients and good in 3. Two instances of wire infection, 9 instances of granulation tissue hyperplasia, and 23 instances of lateral spur formation occurred. No nonunion, avascular necrosis, or postoperative nerve issues were identified.

Conclusions: The surgical technique of ultrasound-assisted closed reduction and percutaneous pinning presented in this study can effectively help surgeons reduce displaced and rotated lateral condylar humeral fractures in children to avoid some open reductions and achieve satisfactory outcomes.