Study of Pediatric Operative Recreational Trauma: A Retrospective Analysis of Pediatric Sports-Related Facial Fractures.

BACKGROUND: In the United States, most school-aged children participate in some form of organized sports. Despite the advantages to social and physical development that organized sports may have, these activities also place a significant number of America's youth at risk for facial injuries. Pediatric facial fractures resulting from sports trauma are well documented within pediatric literature. Despite knowledge of the importance of safety equipment, there is a continued need for increased awareness about fracture patterns resulting from sports injuries to develop better strategies for their prevention. METHODS: A retrospective review of all pediatric patients (age <18) who presented to Children's Memorial Hermann Hospital as a level 1 trauma between January 2006 and December 2015 with radiologically confirmed facial fractures was performed. Data regarding patient demographic information, mechanism of injury, facial fracture location, associated injuries, hospital course, and need for surgical intervention was collected. RESULTS: Of the 1274 patients reviewed, 135 (10.59%) were found to have facial fractures resulting from sports trauma and were included in our cohort. The median age was 14 with 77.8% of the cohort being male. The most common fractures identified were orbital (n = 75), mandibular (n = 42), nasal (n = 27), maxilla (n = 26). Fractures were more frequently related to involvement in baseball/softball and bicycling n = 46 and n = 31 respectively. Eighty-two (60.74%) patients required admission, 6 requiring ICU level care, 70 (51.85%) were found to require surgery. There were 14 patients who were found to have a concomitant skull fracture and 6 with TBI. There were no fatalities in this cohort of patients. CONCLUSION: Pediatric facial fractures occur in the same anatomic locations as adult facial fractures. However, their frequency, severity, and treatment vary because of important anatomical and developmental differences in these populations. Despite available knowledge on this subject and increased use of protective equipment, pediatric facial fractures continue to occur with similar distribution as historically described. While sports participation confers numerous benefits, it is vital that we continue researching pediatric facial trauma and associated fractures to develop protective equipment and protocols to mitigate the risks of these activities.

Forecasting the flap: predictors for pediatric lower extremity trauma reconstruction.

BACKGROUND: Predicting the need for post-traumatic reconstruction of lower extremity injuries remains a challenge. Due to the larger volume of cases in adults than in children, the majority of the medical literature has focused on adult lower extremity reconstruction. This study evaluates predictive risk factors associated with the need for free flap reconstruction in pediatric patients following lower extremity trauma. METHODS: An IRB-approved retrospective chart analysis over a 5-year period (January 1, 2012 to December 31, 2017) was performed, including all pediatric patients (<18 years old) diagnosed with one or more lower extremity wounds. Patient demographics, trauma information, and operative information were reviewed. The statistical analysis consisted of univariate and multivariate regression models to identify predictor variables associated with free flap reconstruction. RESULTS: In total, 1,821 patients were identified who fit our search criteria, of whom 41 patients (2.25%) required free flap reconstruction, 65 patients (3.57%) required local flap reconstruction, and 19 patients (1.04%) required skin graft reconstruction. We determined that older age (odds ratio [OR], 1.134; P =0.002), all-terrain vehicle accidents (OR, 6.698; P<0.001), and trauma team activation (OR, 2.443; P=0.034) were associated with the need for free flap reconstruction following lower extremity trauma in our pediatric population. CONCLUSIONS: Our study demonstrates a higher likelihood of free flap reconstruction in older pediatric patients, those involved in all-terrain vehicle accidents, and cases involving activation of the trauma team. This information can be implemented to help develop an early risk calculator that defines the need for complex lower extremity reconstruction in the pediatric population.