The 'trampoline ankle': severe medial malleolar physeal injuries in children and adolescents secondary to multioccupant use of trampolines

The Pediatric Ankle: Normal Variations and Maturation-Dependent Pathology

The pediatric ankle can present a broad range of normal variation and pathology unique to certain stages of development. Understanding the expected age ranges of ossification and fusion about the ankle is essential to provide accurate diagnoses regarding skeletal integrity. This conclusion has been well characterized radiographically and is supported by cadaveric research.The range of appearances on magnetic resonance imaging has also been well described. Knowledge about the structure of the periosteum and perichondrium aids in image interpretation as well as explaining typical injury patterns. The expected appearance of the physis and regional bone marrow signal is also of utmost importance.Ultrasonography is a valuable tool in pediatric musculoskeletal imaging but is limited when there is concern for intra-articular pathology. Computed tomography tends to be reserved for preoperative evaluation. We describe normal variation and maturation-dependent pathology of the pediatric ankle with an emphasis on imaging considerations.

Differences in Trampoline-Related Knee Injuries Between Children and Adults: A Cross-Sectional Study

Background

Little is known about the specific risk of knee injuries due to trampoline accidents in adults compared with children.

Purpose

To investigate the differences in trampoline-related knee injuries between children and adults and identify risk factors and protective strategies to reduce injury incidence.

Study Design

Cross-sectional study; Level of evidence, 3.

Methods

Data on 229 consecutive patients treated for trampoline-related knee injuries in a single institution were prospectively collected, analyzed, and included. Risk factors, injury patterns, and clinical treatments were compared between skeletally immature and skeletally mature patients. Logistic regression was used to determine the odds ratios for specific risk factors for trampoline-related injuries-including body mass index (BMI), trauma mechanism, patient age, and accident location.

Results

A total of 229 patients met the inclusion criteria; 118 (52%) patients (women, 54.2%; mean age, 8.5 ± 4.1 years) were skeletally immature at the time of injury, and 111 (48%) patients (women, 72%; mean age, 31.9 ± 13.1 years) had closed physes on initial presentation and were classified as skeletally mature. A total of 63 patients (28%) required surgical treatment for their knee injury. Overall, 50 anterior cruciate ligament (ACL) tears, 46 fractures, 39 meniscal tears, 31 ligamentous tears other than ACL, 22 patellar dislocations, and 38 soft tissue injuries, such as lacerations, were recorded. Skeletally mature patients had 7.8 times higher odds (95% CI, 1.6-46.8; P < .05) and 19.1 increased odds (95% CI, 5.5-74.9; P < .05) of an ACL tear or another ligamentous tear, respectively, compared with skeletally immature patients. Patients who described instability and giving way of the knee as relevant trauma mechanisms had odds of 3.11 (95% CI, 0.9-14.8; P < .05) of an ACL tear compared with other trauma mechanisms. Meniscal tears were observed more frequently in the skeletally mature cohort (P < .05). An elevated BMI was associated with a significantly higher relative risk of an ACL tear, a ligamentous tear other than the ACL, and an injury requiring surgery. A third of surgically treated patients were subject to a delayed diagnosis.

Conclusion

Adults had a significantly increased risk of ligamentous and meniscal tears and required operative intervention more often than skeletally immature individuals. Elevated BMI, age, and instability events in terms of trauma mechanism conveyed an increased risk of structural damage to the knee.

Trampoline centre injuries in children and adolescents: a systematic review and meta-analysis

CONTEXT

No evidence-based review has compared injury risks sustained on trampolines at home and in trampoline centres.

OBJECTIVE

To present pooled results for injury type, site and treatment from studies reporting injuries that occurred on trampolines at home and in trampoline centres.

DATA SOURCES

MEDLINE, Scopus, Google Scholar and Embase databases were searched to 31 December 2021.

STUDY SELECTION

Inclusion criteria: (1) assessment of trampoline injuries (home and trampoline centres); (2) children and adolescents; (3) the point estimate was reported as an odds ratio (OR); and (4) an internal comparison was used.

DATA EXTRACTION

Data were reported according to Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) guidelines. A random-effects model was used to estimate effect.

RESULTS

There were 1 386 843 injuries (n=11 studies). There was an increased likelihood of musculoskeletal and/or orthopaedic injuries (OR 2.45, 95% CI 1.66 to 3.61, p<0.001), lower extremity injury (OR 2.81, 95% CI 1.99 to 3.97, p<0.001), sprains (OR 1.64, 95% CI 1.36 to 1.97, p<0.001) and a need for surgery (OR 1.89, 95% CI 1.37 to 2.60, p<0.001) at trampoline centres compared with home trampolines. Conversely, upper extremity injury (OR 0.49, 95% CI 0.25 to 0.95, p=0.03), concussion (OR 0.48, 95% CI 0.35 to 0.65, p<0.001) and lacerations (OR 0.46, 95% CI 0.35 to 0.59, p<0.001) were less likely to occur at trampoline centres than at home.

CONCLUSIONS

Children using trampoline centres are more likely to suffer severe trauma and require surgical intervention than children using home trampolines. Development and implementation of preventative strategies, public awareness, and mandatory safety standards are urgently required for trampoline centres.

Acute Fractures and Dislocations of the Ankle and Foot in Children

Distinct biologic and mechanical attributes of the pediatric skeleton translate into fracture patterns, complications, and treatment dilemmas that differ from those of adults. In children, increasing participation in competitive sports activities has led to an increased incidence of acute injuries that affect the foot and ankle. These injuries represent approximately 13% of all pediatric osseous injuries. Important posttraumatic complications include premature physeal arrest, three-dimensional deformities and consequent articular incongruity, compartment syndrome, and infection. The authors describe normal developmental phenomena and injury mechanisms of the ankle and foot and associated imaging findings; mimics and complications of acute fractures; and dislocations that affect the pediatric ankle and foot. Treatment strategies, whether conservative or surgical, are aimed at restoring articular congruency and functional alignment and, for pediatric patients specifically, protecting the physis. The different types of ankle and foot fractures are described, and the American College of Radiology guidelines used to determine appropriate imaging recommendations for patients who meet the Ottawa ankle and foot rules are discussed. The systems used to classify clinically important fractures, including the Salter-Harris, Dias-Tachdjian, Rapariz, and Hawkins systems, are described, with illustrations that reinforce key concepts. These classification systems aid in diagnosis and treatment planning, facilitate communication, and help standardize documentation and research. This information is intended to supplement radiologists' understanding of developmental phenomena, anatomic variants, fracture patterns, and associated complications that affect the pediatric foot and ankle. In addition, the role of imaging in ensuring appropriate treatment, follow-up, and patient and parent counseling is highlighted. The online slide presentation from the RSNA Annual Meeting is available for this article. ^©RSNA, 2020.

Buckle fracture of the proximal tibia in children and frequency of association with trampoline and inflatable bouncer use

BACKGROUND

Proximal tibial buckle fractures are often called "trampoline fractures," but mechanisms are more varied.

OBJECTIVE

To assess the frequency of trampoline or bouncer etiology among children with buckle fracture of the proximal tibia, characterizing demographics, alternative etiologies, and fracture patterns.

MATERIALS AND METHODS

We performed retrospective chart review of mechanisms, age and gender of children with radiographs interpreted as proximal tibial buckle fracture between 2010 and 2016. Two pediatric radiologists assessed presence of cortical impaction, cortical break, increased anterior scoop deformity, and oblique extension of fracture toward the physis. We studied the associations among demographics, etiology and fracture appearance using analysis of variance and chi-square/Fisher exact tests.

RESULTS

We identified 145 exams interpreted as proximal tibial buckle fracture (median age 34 months, 64% girls). Bouncing surface was the most common mechanism (44%), and 80% of those cases reported multiple people on the bouncing surface. Falls were the second most common mechanism (30%). Children injured while bouncing were older (median 41 months) than others (median 21 months, P<0.005) and more likely to have oblique extension of fracture toward the physis (P<0.05). Buckle deformity was associated with a younger age (F=8.67; P<0.01), while oblique extension to the physis and concurrent fibula fracture were associated with older age (F=18.62, P<0.001; and F=8.02, P<0.01, respectively).

CONCLUSION

Trampoline use was the most common single mechanism of injury in children with proximal tibial fracture interpreted as buckle deformity. However, non-bouncing mechanisms were overall more common and occurred in a younger age group at risk for "toddler fractures."

Varus shearing force is a main injury mechanism of pediatric trampoline-related injury in addition to compressive axial loading

Background

Many case studies have been published about trampoline-related injury (TRI); however, a comparative study could allow a more specific analysis of the characteristics of TRI, and enable more differentiated approaches to prevent such injuries. We investigated the injury mechanism of TRI in children compared with other pediatric trauma.

Methods

Of 35,653 children (age 0–18 years) who visited the pediatric emergency department after traumatic injuries from January 2011 to June 2017, 372 patients with TRI (TRI group) were retrospectively identified. Among the remaining 35,281 patients with other trauma (non-TRI group), 372 were 1:1 matched to the TRI group according to sex, age, injured body part, and body weight (matched-control group). The patients’ data, injured site, and injury patterns were compared between the groups.

Results

The most frequently injured body part was the knee/lower leg in the TRI group and the head in the non-TRI group. The most frequent injury types were fractures in the TRI group and open wounds in the non-TRI group. In the comparison between the TRI and matched-control groups, the most common lower-extremity fractures were proximal tibial fractures with varus angulation in the TRI group and tibial shaft spiral fractures in the matched-control group. For the upper extremities, the risk of lateral condylar humeral fracture was higher in the TRI group. The TRI group presented more physeal involvements.

Conclusions

The risks of varus stress injury (proximal tibial fracture with varus angulation in lower extremity and lateral condylar humeral fracture in upper extremity) were higher in the TRI group than in matched-control group. Thus, varus shearing force seems to be an important injury mechanism in TRI in addition to compressive force. This varus force may increase the risk of physeal injury by generating additional shear force on the physis.

Salter-Harris II Ankle Fractures in Children: Does Fracture Pattern Matter?

OBJECTIVES

To determine the correlation of Salter-Harris II fracture patterns with premature physeal closure (PPC) and resultant angular deformity of the ankle.

DESIGN

Retrospective review.

SETTING

Cincinnati Children's Hospital Medical Center (outpatient level of care).

PATIENTS/PARTICIPANTS

We searched the digital ankle radiographs taken at our institution from 2001 to 2010, identifying all skeletally immature patients with confirmed ankle fractures.

INTERVENTION

Fracture patterns were subclassified according to the Dias-Tachdjian classification system. Only patients with a minimum of 6 months of follow-up were included.

MAIN OUTCOME MEASURES

Rates of PPC, initial operative interventions, subsequent surgical interventions, and final angular deformities of the ankle in the coronal plane were recorded and considered significant if more than 10 degrees.

RESULTS

One hundred forty-one patients met our criteria. Fifty-two pronation-external rotation (PER) injuries, 35 supination-external rotation (SER) injuries, and 54 supination-plantar flexion (SPF) injuries were included. Of the PER injuries, 15 (28.8%) PPCs occurred with 6 patients having a resultant angular deformity of the ankle of at least 10 degrees at latest follow-up. Thirteen (24.1%) of the SPF patients went on to PPC with no resultant angular deformities. Of the SER injuries, 4 (11.4%) went on to PPC also with no patients having resultant angular deformities. The PER group had a statistically significantly higher rate of resultant angular deformity (P = 0.021).

CONCLUSIONS

Salter-Harris II fractures of the ankle are common in children, with fracture pattern directly related to PPC and the chance for angular deformity. PER injuries are more likely to have a PPC associated with an angular deformity compared with SER and supination-plantar flexion injuries. The odds ratio of having an angular deformity with PER injuries compared with SER and SPF injuries is 25.

SIGNIFICANCE

Fracture pattern of the ankle is related to growth disturbance, which must be taken into consideration when treating these injuries and addressed with the patient and family.

LEVEL OF EVIDENCE

Prognostic Level III. See Instructions for Authors for a complete description of levels of evidence.

Distinct features of trampoline-related orthopedic injuries in children aged under 6 years

INTRODUCTION

Concern has been growing about trampoline-related injuries among young children. Several published policy statements have repeatedly recommended that children younger than 6 years should not use trampolines. However, few studies have investigated the injuries caused by trampoline-related accidents among young children. This study aimed to identify the distinct features of trampoline-related orthopedic injuries in children younger than 6 years.

METHODS

We retrospectively reviewed the medical records of pediatric patients aged between 0 and 16 years who visited our regional emergency center due to trampoline-related orthopedic injuries between 2012 and 2015. Patients were divided into two groups: a preschool group (younger than 6 years) and a school group (older than 6 years). We compared the features of the injuries in the two groups.

RESULTS

Among 208 patients, 108 (52%) were male and 100 (48%) were female. The mean age was 5.4 years. The preschool group accounted for 66%. There were no seasonal variations. Fractures were sustained in 96 patients (46%). The anatomical locations of injuries differed significantly between the two age groups. Proximal tibia fractures were more frequent in the preschool group than the school group (34% and 6%, respectively). Distal tibia fractures were more prevalent in the school group than the preschool group (44% vs. 13%, respectively). Surgical treatment was needed more frequently in the school group (p = 0.035, hazard ratio 2.52, 95% confidence interval: 1.03-6.17). Most of the injuries (82%) occurred at trampoline parks.

CONCLUSIONS

The anatomical locations of trampoline-related orthopedic injuries differed significantly between age groups. Fractures were more common around the knee in younger children and the ankle in older children.

Trampoline injuries in the world and in Turkey

Trampoline continues to be an activity that individuals in every age, but particularly children, enjoy to do for nearly a hundred years. However, it has some unpleasant effects due to the risk of injury. Safety rules, therefore, need to be followed during trampoline activities. Contemporarily, it is not recommended for small children and purposes other that sportive activities in Western countries. In this review, we discuss the trampoline-related injuries to increase the awareness in the society and to shape the regulations related with the trampoline use in Turkey.