Christina Sayama

A review of pediatric lumbar spine trauma

Pediatric spine fractures constitute 1%-3% of all pediatric fractures. Anywhere from 20% to 60% of these fractures occur in the thoracic or lumbar spine, with the lumbar region being more affected in older children. Younger children tend to have a higher proportion of cervical injuries. The pediatric spine differs in many ways from the adult spine, which can lead to increased ligamentous injuries without bone fractures. The authors discuss and review pediatric lumbar trauma, specifically focusing on epidemiology, radiographic findings, types and mechanisms of lumbar spine injury, treatment, and outcomes.

The feasibility and safety of using sublaminar polyester bands in hybrid spinal constructs in children and transitional adults for neuromuscular scoliosis.

OBJECT The authors have previously reported on their early experience with sublaminar polyester bands in spine surgery. In this paper, the authors describe the use of sublaminar polyester bands in long-segment posterior instrumented spinal fusions from the upper thoracic spine to the ilium in 21 children and transitional adults with progressive neuromuscular scoliosis. Transitional adults were patients older than 18 years of age with a spinal disorder of pediatric onset, such as spina bifida. This dedicated study represents the first reported use of polyester bands in spine surgery for neuromuscular scoliosis in this patient population in the US. METHODS The authors retrospectively reviewed the demographics and procedural data of patients who underwent posterior instrumented fusion using sublaminar polyester bands for neuromuscular scoliosis. RESULTS Twenty-one pediatric and adult transitional patients, ranging in age from 10 to 20 years (mean 14 years), underwent posterior instrumented fusion for progressive neuromuscular scoliosis. The average coronal Cobb angle measured 66° before surgery (range 37°-125°). Immediately after surgery, the mean coronal Cobb angle was 40° (range 13°-85°). At last follow-up, the average coronal Cobb angle was maintained at 42° (range 5°-112°). Regarding sagittal parameters, thoracic kyphosis was restored by 8%, and lumbar lordosis improved by 20% after surgery. Mean follow-up duration was 17 months (range 2-54 months). One patient with an aborted procedure due to loss of intraoperative evoked potentials was excluded from the analysis of radiographic outcomes. Mean surgical time was 7 hours 43 minutes (range 3 hours 59 minutes to 10 hours 23 minutes). All patients received either a 12- or 24-mg dose of recombinant human bone morphogenetic protein-2. Average estimated blood loss was 976 ml (range 300-2700 ml). Complications directly related to the use of sublaminar instrumentation included transient proprioceptive deficit (1 patient) and prolonged paraparesis (1 patient). Other complications noted in this series included disengagement of the rod from an iliac screw (1 patient), proximal junctional kyphosis (1 patient), noninfected wound drainage (2 patients), and perioperative death (1 patient). The lessons learned from these complications are discussed. CONCLUSIONS Pedicle screws, laminar/pedicle/transverse process hooks, and sublaminar metal wires have been incorporated into posterior spinal constructs and widely reported and used in the thoracic and lumbar spines and sacrum with varying success. This report demonstrates the satisfactory radiological outcomes of hybrid posterior spinal constructs in pediatric and adult neuromuscular scoliosis that include sublaminar polyester bands that promise the technical ease of passing sublaminar instrumentation with the immediate biomechanical rigidity of pedicle screws and hooks. However, the high neurological complication rate associated with this technique (2/21, or 10%) tempers the acceptable radiographic outcomes.

Infected Subgaleal Hematoma Following Blunt Head Trauma in a Child: Case Report and Review of the Literature

Subgaleal hematoma (SGH), an uncommon but potentially dangerous complication, has been reported to occur with delivery in newborns, as well as in young patients following head trauma. Infection of a SGH is extremely rare, especially in cases where no disruption of the skin barrier occurs. We report a case of an infected SGH in an 8-month-old following closed skull fracture. The patient presented with scalp swelling 1 day after falling 3 feet. Initial evaluation found a nondisplaced skull fracture on computed tomography. She was discharged following an uneventful 23-hour observation. Three days later, she developed symptoms concerning for a viral upper respiratory tract infection and received symptomatic treatment. Nine days after injury, she returned with continued fevers, irritability, and significant increase in scalp swelling. Magnetic resonance imaging showed a subgaleal abscess with osteomyelitis. Needle aspiration revealed an infected hematoma with cultures positive for Streptococcus pneumoniae, treated with intravenous ampicillin. Purulent drainage from an enlarging necrotic needle aspiration site required subsequent surgical debridement of the subgaleal abscess with drain placement. She recovered well following surgery and intravenous antibiotics. Physicians should be aware that SGH carries a risk of serious morbidity and mortality. SGH can serve as a nidus for infection, typically from skin barrier breakdown or, as in this case, hematogenous spread. Early recognition, appropriate antibiotic therapy, and surgical debridement are critical in treating infected SGH.

Soft-tissue defects after spinal instrumentation in 5 children: risk factors, management strategies, and outcomes

OBJECT Wound-related complications following complex posterior spine procedures in children may result in the need for serial debridements and may place spinal instrumentation at risk. In this study, the authors review their experience with the management of soft-tissue defects from spinal instrumentation in 5 high-risk pediatric patients. The use of various rotational and transpositional flaps in the management of these complicated cases is discussed, as well as their outcomes. METHODS The authors retrospectively reviewed the medical records of 5 patients who returned to the Neuro-Spine service at Texas Childrens Hospital for erosion of spinal instrumentation through the skin between September 1, 2007, and October 31, 2012. Patient demographics and clinical and operative data were recorded. RESULTS Risk factors such as young age (1 case), poor nutritional status (1 case), multiple previous surgeries (3 cases), severe neurological deficits (2 cases), and history of radiation therapy for malignancy (2 cases) were noted in the 5 patients. The paraspinous flap (4 cases) was the mainstay of the treatment. Follow-up ranged from 7.5 to 17.5 months (mean 11 ± 4.2 months). One of the patients required more than 1 procedure for revision of the wound. Cultures were positive in 2 of the 5 cases. Spinal instrumentation was removed in 3 of the 5 cases; however, in all 3 of the cases there was evidence of delayed instability that developed after the removal of spinal instrumentation. CONCLUSIONS The use of local tissue flaps is safe and efficacious for treatment of posterior wound complications due to spinal instrumentation in children. Removal of spinal instrumentation should be avoided due to the development of delayed instability. Highly vascularized tissue is used to speed healing, clear bacteria, and eliminate dead space, obviating the need to remove contaminated spinal instrumentation.