Purpose of review We aimed to review considerations, current treatment options, and complications in the management of pediatric proximal humerus fractures. Recent findings Recent literature has shown an increased incidence of operative management of proximal humerus fractures. With increased age, and increased deformity, studies report excellent outcomes after operative treatment. Still, patients under the age of 12 and with Neer grade I and II fractures are consistently treated nonoperatively. Summary Indications for operative management of proximal humerus fractures in skeletally immature patients have become increasingly widened. Current literature emphasizes the stratification of patients based on displacement, angulation, and shortening, with overall positive outcomes. Each case should be considered on individual bases, accounting for both radiographic parameters, developmental stages of patients, and potential complications. In the authors’ opinion, adolescent patients with Neer Horowitz 3 and 4 fractures surgical management should be considered. In younger patients with nonoperative management, even with significant displacement, is the mainstay of treatment because of the tremendous remodeling potential of the proximal humerus in children. Video abstract http://links.lww.com/MOP/A56
Case: Tarsal-carpal coalition syndrome (TCCS) is a disorder identified by fusion of the carpals, tarsals, and phalanges of the hands and feet. We describe a case of an 11-year-old girl who has been followed at our outpatient clinic from the age of 8 months. Conclusion: Although patients with TCCS can experience a wide range of symptoms, the primary complaint arises from the foot deformity and associated pain. Using advanced imaging such as 3D computed tomography reconstruction and genetic testing, this report details the clinical, genetic, and radiographic characteristics of the disorder. We highlight the natural progression and symptomatic management of TCCS.
Introduction: Tibial tubercle fractures are uncommon injuries typically seen in adolescents approaching skeletal maturity. No evidence based clinical practice guidelines currently exist regarding clinical management of both operative and nonoperative fractures. Purpose: To determine the variability in clinical management of tibial tubercle fractures among a group of pediatric orthopaedic surgeons. Methods: Nine fellowship trained academic pediatric orthopaedic surgeons reviewed 51 anteroposterior and lateral knee radiographs with associated case age (mean: 13.6yrs, range: 9-16yrs) and gender (86%male). Respondents were asked to describe each fracture using the Ogden classification (Type 1-5 with A/B modifiers), desired radiographic workup, operative vs. nonoperative treatment strategy, and plans for post treatment follow-up. Interrater reliability was determined among the surgeons using Fleiss Kappa analysis. Results: Fair agreement was reached when classifying the fracture type using the Ogden classification (k=0.39,p<0.001). There was slight agreement when determining if CT (k=0.10,p<0.001) should be ordered and when rating concern for compartment syndrome (k=0.17,p<0.001). Overall, surgeons had moderate agreement on whether to treat the fractures operatively vs. nonoperatively (k=0.51,p<0.001). Nonoperative management was selected for 80.4%(45/56) of Type 1A fractures. Respondents selected operative treatment for 75% (30/40) of Type 1B, 58.3% (14/24) of Type 2A, 97.4%(74/76) of Type 2B, 90.7%(39/43) of Type 3A, 96.3%(79/82) of Type 3B, 71.9%(87/121) of Type 4, and 94.1%(16/17) of Type 5 fractures. Regarding operative treatment, moderate agreement was reached when evaluating the emergent nature of the fracture (k=0.44,p<0.001) and surgical technique (k=0.44, p<0.001). However, only fair/slight agreement was reached when selecting the specifics of operative treatment including surgical fixation technique (k=0.25,p<0.001), screw type (k=0.26, p<0.001), screw size (k=0.08,p<0.001), use of washers (k=0.21,p<0.001), and performing a prophylactic anterior compartment fasciotomy (k=0.20,p<0.001). There was moderate agreement on radiographic work up at first (k=0.5,p<0.0011) and final (k=0.49,p<0.001) follow up visits. Surgeons had moderate agreement on plans to remove hardware (k=0.39,p<0.001). Non-operative treatment of fractures was observed to have only fair agreement (k=0.29,p<0.001). Furthermore, surgeons had fair/moderate agreement regarding the specifics of nonoperative treatment including degree of knee extension during immobilization (k=0.46,p<0.001), length of immobilization (k=0.34,p<0.001), post treatment weight bearing status (k=0.30,p<0.001), and post treatment rehabilitation (k=0.34,p<0.001). Finally, there was moderate agreement on radiographic work up at first (k=0.51,p<0.001) and final follow up (k=0.46,p<0.001). Conclusion: Significant variability exists between surgeons when evaluating and treating pediatric tibial tubercle fractures. Future studies should aim to create best practice guidelines for pediatric orthopaedic surgeons to reference when treating these fractures. [Table: see text]
Background/Purpose: Pediatric orthopaedic trauma in inner city communities often present with unique and modifiable risk factors. The purpose of this study was to characterize and evaluate the pattern and nature of orthopaedic and associated injuries in pediatric patients involved in motor vehicle accidents (MVA), falls, sports related injuries and pedestrian struck either on foot or on bicycle at an inner-city level 1 trauma center. Methods: 260 pediatric patients who presented to the emergency department after a fall, a sports related injury, MVA, pedestrian struck on foot (PSoF), or pedestrians struck on bicycle (PSoB) with orthopaedic injuries at our institution between 2013 and 2020 were retrospectively reviewed. Results: The mean age of our cohort was 9.1 years (SD ±4.60). 36.5% (95/260) were girls, 63.5% (165/260) were boys. There were a total of 260 patients with a total of 331 fractures. 96.3% (319/331) of the fractures were appendicular while 3.6% (12/331) were axial. 43.8% (114/260) of patients had lower extremity fractures and 49.2% (128/260) had upper extremity fractures. Of all mechanisms, MVAs were most commonly associated with axial fractures (p<0.01). Falls were associated most commonly with upper extremity fractures (p<0.01), lower patient age (p<0.01) and negatively correlated with lower extremity fractures (p<0.01). Sports related injuries were most commonly correlated with tibia fractures (p<0.01). Sports etiologies were subdivided into Basketball (29%), Football (27%), Soccer (11%), and other physical activities like Rollerblading (11%) and Skateboarding (9%). PSoF was associated with tibia fractures (p<0.05) and open fractures (p<0.01). PSoB was the most likely mechanism to lead to lower extremity fractures (p=0.01) and head trauma (p<0.01). 75% (6/8) of PSoB were not wearing a helmet at the time of injury. Conclusion: Not surprisingly, falls represent the most common mechanism of pediatric orthopaedic injury. Other mechanism of injuries included MVAs, pedestrian struck on foot or bicycle were associated with more significant trauma including vertebral fractures, open fractures, head trauma and compartment syndrome. Preventative measures including education on car seat and seat belt use, helmet use and bicycle safety in children may reduce the incidence of these serious injuries. [Figure: see text]
post-treatment weight bearing status (k = 0.30; P < 0.001) and post-treatment rehabilitation (k = 0.34; P < 0.001). Significant variability exists between surgeons when evaluating and treating pediatric tibial tubercle fractures.
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