Journal of neurosurgery. Pediatrics
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J Neurosurg Pediatr · Aug 2014
Pediatric skull fractures: the need for surgical intervention, characteristics, complications, and outcomes.
Head trauma is a common cause of morbidity and mortality in the pediatric population and often results in a skull fracture. Pediatric skull fractures are distinct from adult fractures. Pediatric fractures have a greater capacity to remodel, but the pediatric brain and craniofacial skeleton are still developing. Although pediatric head trauma has been extensively studied, there is sparse literature regarding skull fractures. The authors' aim was to investigate the characteristics, injuries, complications, and outcomes of the patients in whom surgical intervention was needed for skull fractures. ⋯ The majority of pediatric skull fractures can be managed conservatively. Of those requiring surgical intervention, fewer than half of the surgeries are performed solely for skull fracture repair only. Patients hit in the head with an object or involved in a motor vehicle crash are more likely to need surgical intervention either to repair the skull fracture or for TBI management, respectively. Frontal bone fractures are more likely to necessitate repair, and those patients treated for TBI have a greater incidence of 2 or 3 bones involved in the fracture. Complications occurred but most were related to underlying trauma, not the surgery. No patients who underwent intervention for repair of their skull fracture only had a worsening of their neurological status.
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J Neurosurg Pediatr · Aug 2014
Controlled Clinical TrialMinimizing transfusion requirements for children undergoing craniosynostosis repair: the CHoR protocol.
Children with craniosynostosis may require cranial vault remodeling to prevent or relieve elevated intracranial pressure and to correct the underlying craniofacial abnormalities. The procedure is typically associated with significant blood loss and high transfusion rates. The risks associated with transfusions are well documented and include transmission of infectious agents, bacterial contamination, acute hemolytic reactions, transfusion-related lung injury, and transfusion-related immune modulation. This study presents the Children's Hospital of Richmond (CHoR) protocol, which was developed to reduce the rate of blood transfusion in infants undergoing primary craniosynostosis repair. ⋯ A protocol that includes preoperative administration of recombinant erythropoietin, intraoperative autologous blood recycling, and accepting a lower transfusion trigger significantly decreased transfusion utilization (p < 0.001). A decreased length of stay (p < 0.001) was seen, although the authors did not investigate whether composite transfusion complication reductions led to better outcomes.
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J Neurosurg Pediatr · Aug 2014
Factors associated with ventricular catheter movement and inaccurate catheter location: post hoc analysis of the hydrocephalus clinical research network ultrasound-guided shunt placement study.
Shunt survival may improve when ventricular catheters are placed into the frontal horn or trigone of the lateral ventricle. However, techniques for accurate catheter placement have not been developed. The authors recently reported a prospective study designed to test the accuracy of catheter placement with the assistance of intraoperative ultrasound, but the results were poor (accurate placement in 59%). A major reason for the poor accurate placement rate was catheter movement that occurred between the time of the intraoperative ultrasound image and the first postoperative scan (33% of cases). The control group of non-ultrasound using surgeons also had a low rate of accurate placement (accurate placement in 49%). The authors conducted an exploratory post hoc analysis of patients in their ultrasound study to identify factors associated with either catheter movement or poor catheter placement so that improved surgical techniques for catheter insertion could be developed. ⋯ Catheter movement and inaccurate catheter placement are both more likely to occur in young patients (< 6 months). Inaccurate catheter placement is also more likely to occur in cases involving a posterior shunt entry site than those involving an anterior shunt entry site. Future clinical studies aimed at improving shunt placement techniques must consider the effects of young age and choice of entry site on catheter location.
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J Neurosurg Pediatr · Aug 2014
Utility of computed tomography or magnetic resonance imaging evaluation of ventricular morphology in suspected cerebrospinal fluid shunt malfunction.
It is common to evaluate children with suspected CSF shunt malfunctions using CT of the head or, more recently, "quick brain" MRI. However, the reliability of using ventricular behavior, as assessed on cranial imaging during previous presentations with shunt obstructions, is not well defined. The authors conducted a study to determine if CT or MRI of ventricular morphology added useful clinical information in the evaluation of shunt malfunctions. ⋯ Historical CT or MRI data regarding ventricular morphology patterns seen during prior examinations of shunt obstructions may inform a clinician's judgment of shunt obstruction on subsequent presentations, but they are not conclusive. In the present series, the authors found that changes in the morphology of a given patient's ventricular system when shunt obstruction occurs were often consistent and predictable, but not always. It remains imperative, however, that cranial images obtained to rule out shunt malfunction be compared with prior studies.