Thoracolumbar Injury Classification and Severity Score in Children: A Validity Study.

BACKGROUND: The Thoracolumbar Injury Classification and Severity Score (TLICS) has been shown to be a valid tool for assessing the need for surgical intervention in adult patients. There is limited insight into its usefulness in children. OBJECTIVE: To assess the validity of the TLICS system in pediatric patients. METHODS: The medical records for pediatric patients with acute, traumatic thoracolumbar fractures at two Level 1 trauma centers were reviewed retrospectively. A TLICS score was calculated for each patient using computed tomography and magnetic resonance images, along with the neurological examination recorded in the patient's medical record. TLICS scores were compared with the type of treatment received. Receiver operating characteristic (ROC) curve analysis was employed to quantify the validity of the TLICS scoring system. RESULTS: TLICS calculations were completed for 165 patients. The mean TLICS score was 2.9 (standard deviation ± 2.7). Surgery was the treatment of choice for 23% of patients. There was statistically significant agreement between the TLICS suggested treatment and the actual treatment received (P < 0.001). The ROC curve calculated using multivariate logistic regression analysis of the TLICS system's parameters as a tool for predicting treatment demonstrated excellent discriminative ability, with an area under the ROC curve of 0.96, which was also statistically significant (P < 0.001). CONCLUSION: The TLICS system demonstrates good validity for selecting appropriate thoracolumbar fracture treatment in pediatric patients.

Thoracolumbar Injury Classification and Severity Score in children: a reliability study.

OBJECTIVE There are many classification systems for injuries of the thoracolumbar spine. The recent Thoracolumbar Injury Classification and Severity Score (TLICS) has been shown to be a reliable tool for adult patients. The aim of this study was to assess the reliability of the TLICS system in pediatric patients. The validity of the TLICS system is assessed in a companion paper. METHODS The medical records of pediatric patients with acute, traumatic thoracolumbar fractures at a single Level 1 trauma center were retrospectively reviewed. A TLICS was calculated for each patient using CT and MRI, along with the neurological examination recorded in the patient's medical record. TLICSs were compared with the type of treatment received. Five raters scored all patients separately to assess interrater reliability. RESULTS TLICS calculations were completed for 81 patients. The mean patient age was 10.9 years. Girls represented 51.8% of the study population, and 80% of the study patients were white. The most common mechanisms of injury were motor vehicle accidents (60.5%), falls (17.3%), and all-terrain vehicle accidents (8.6%). The mean TLICS was 3.7 ± 2.8. Surgery was the treatment of choice for 33.3% of patients. The agreement between the TLICS-suggested treatment and the actual treatment received was statistically significant (p < 0.0001). The interrater reliability of the TLICS system ranged from moderate to very good, with a Fleiss' generalized kappa (κ) value of 0.69 for the TLICS treatment suggestion among all patients; however, interrater reliability decreased when MRI was used to contribute to the TLICS. The κ value decreased from 0.73 to 0.57 for patients with CT only vs patients with CT/MRI or MRI only, respectively (p < 0.0001). Furthermore, the agreement between suggested treatment and actual treatment was worse when MRI was used as part of injury assessment. CONCLUSIONS The TLICS system demonstrates good interrater reliability among physicians assessing thoracolumbar fracture treatment in pediatric patients. Physicians should be cautious when using MRI to aid in the surgical decision-making process.

Penetration of an Optic Nerve by a Sellar/Suprasellar Arachnoid Cyst.

BACKGROUND: Sellar/suprasellar cystic lesions can cause compression of the optic pathways and result in a decline in vision. There have been reports of optic pathways being fenestrated by intracranial aneurysms. This is the first report of a sellar/suprasellar arachnoid cyst causing fenestration of an optic nerve. CASE DESCRIPTION: Our patient presented with an 8-month history of worsening vision. Imaging revealed a sellar/suprasellar cystic lesion with compression of the optic pathways. He was treated surgically via an endoscopic transsphenoidal approach. The left optic nerve was found to have multiple round defects during surgery. Pathology was consistent with an arachnoid cyst. The patient has had progressive improvement in vision up to 6 months after surgery. CONCLUSIONS: Sellar/suprasellar arachnoid cysts likely form when a communication exists between the suprasellar arachnoid space and the sella turcica. We believe that our patient's cyst grew slowly enough to allow normal functioning of the optic nerve as it was being penetrated. Though visual symptoms may be gradual and not present until after the optic nerve has been penetrated, these symptoms and signs may still improve with removal of the cyst. Prognosis for visual improvement is difficult to predict with cases of compressive sellar/suprasellar cystic masses. Improvement in the vision examination after surgical resection is possible even when the optic nerve has been penetrated.

Intracranial blastomycotic abscess mimicking malignant brain neoplasm: Successful treatment with voriconazole and surgery.

BACKGROUND: Cerebral blastomycosis is a rarely reported disease, and in the absence of associated, underlying systemic infection, poses a great diagnostic difficulty. Magnetic resonance imaging can sometimes provide equivocal information when trying to pinpoint a diagnosis. Classically, cerebral blastomycosis has been treated with amphotericin B. Voriconazole is a newer triazole antifungal with potential as a follow-up treatment of blastomycosis of the central nervous system after initial therapy with amphotericin B. CASE DESCRIPTION: We describe one such case of a cerebral blastomycotic abscess, presenting in the absence of any systemic disease, which was initially thought to be a neoplasm. It was successfully treated by surgical resection followed by sequential amphotericin B and voriconazole. The patient did well with voriconazole therapy and was followed for voriconazole tolerance with liver function tests, which continued to be stable at 8 months past the initiation of therapy. At 12 months postoperatively, the patient was doing well and showed gradual improvement in a visual field cut, with no sign of recurrent infection. CONCLUSIONS: Isolated cerebral blastomycosis can present a diagnostic challenge. In the absence of systemic infection, surgical resection followed by antifungal therapy is a logical treatment plan.

Assessment of driving outcomes after epilepsy surgery.

INTRODUCTION: Driving is an important factor contributing to good quality of life in patients with epilepsy. Little work has been undertaken to explore the details of driving experience alone in this patient population. We assessed the driving status of our patients prior to and following surgery for epilepsy. We also sought to determine what associations exist between patient characteristics and postoperative driving status. METHODS: The participants were selected from those adult patients with epilepsy who have required surgical treatment at our home institution between 2006 and 2010. Each participant received a questionnaire asking about driving and seizure status before and after surgery. The surveys were distributed using a modified Dillman approach. Perioperative patient data were obtained from the electronic medical record system in addition to a previously assembled epilepsy database from the Neurology Department at our institution. Independent variables were analyzed to look for significant associations with driving outcomes. RESULTS: One hundred forty eligible patients were included in the survey population; 78 patients returned a questionnaire for a response rate of 55.7%. Eighty percent of patients experienced driving as a regular part of life at some point prior to surgery. At the time of the questionnaire distribution, 68% of patients had returned to regular driving. Demographic characteristics did not play a significant role in whether or not the patient had a favorable driving outcome after surgery. However, patients who had a history of driving on a regular basis prior to surgery and those who had an Engel Class I outcome after surgery had significantly higher rates of good driving outcomes. Also, patients with an unfavorable preoperative driving status were more likely to have a favorable driving outcome after surgery if they had an Engel Class I outcome. Patients in whom intracranial electroencephalography (EEG) was utilized prior to resection had worse driving outcomes. CONCLUSIONS: A surprisingly high percentage of patients with epilepsy have experienced driving on a regular basis prior to surgery. We can assume that most patients were not driving immediately prior to surgery, given the fact that they had progressed to requiring surgery for treatment of their epilepsy. Thus, a driving rate of 68% after surgery can be considered good. We found that a patient's preoperative driving history, the use of intracranial EEG before surgical resection, and Engel classification were significant predictors of postoperative driving outcomes. These data provide patients with assistance in preoperative counseling. More investigation needs to be completed in other patient variables - such as seizure types, magnetic resonance imaging (MRI) findings, and patient motivators for driving - as possible predictors of driving outcomes.

Associated injuries in children and adolescents with spinal trauma.

BACKGROUND: Over half of children and adolescents with spinal trauma have associated injuries, most commonly involving the appendicular skeleton, head and neck, and thorax. The incidence and characteristics of these associated injuries have been well described, but to our knowledge there has been no evaluation of the relationship between the injury characteristics and the patient age. METHODS: Data were obtained from the trauma registries of the local pediatric and adult level 1 trauma centers, and patients aged 0 to 19 years with spinal trauma were identified. For analysis, patients were divided into 3 age groups: 0 to 3, 4 to 12, and 13 to 19 years. Associated injuries were divided into 5 groups: head, thoracic, abdominal, appendicular skeletal fracture, and neurological. RESULTS: Overall, 25 patients had isolated dislocations and 307 patients had 366 spinal fractures or fracture-dislocations: 36% cervical, 31% thoracic, and 51% lumbar. Most (84%) of the injuries occurred in the 13- to 19-year-old group. Sixty-two percent of patients had associated injuries, most commonly thoracic injuries (pulmonary contusion, pneumothorax, rib fracture); 45% had multilevel spinal fractures, 39% of which were noncontiguous. Nearly three fourths of the noncontiguous fractures occurred in a different spinal region; cervical fracture with concomitant thoracic fracture was the most frequent pattern. CONCLUSIONS: This large series of consecutive patients highlights several important concepts concerning pediatric spinal fractures, including age-related patterns of injury, frequent associated injuries, and a high rate of multiple spinal injuries, especially noncontiguous injuries. It also emphasizes the importance of careful full-body examination and imaging of the entire spine in children and adolescents with a known spinal injury. LEVEL OF EVIDENCE: Level IV-case series.

Age-related patterns of injury in children involved in all-terrain vehicle accidents.

BACKGROUND: All-terrain vehicle (ATV) accidents are considerable sources of morbidity and mortality for children and adolescents. This study was done to investigate the types and severity of injuries and the role of age and body mass index on the types of fractures sustained in children younger than 16 years. METHODS: A retrospective chart review was done on 96 consecutive children who sustained injuries in ATV-related accidents during a 30-month period. Sixty-four patients were boys and 32 were girls. The mean age of the children was 11.0 years. To determine differences in fracture type, Glasgow Coma Scale, Pediatric Trauma Score, and length of hospitalization, the 96 patients were divided into 2 groups: group A, 54 children (56%) 12 years or younger, and group B, 42 children (44%) 13 years or older. RESULTS: Sixty-one children (64%) required hospital admission. No statistically significant difference between the 2 groups was noted. Fifty-four (56%) children required surgical treatment. One fatality occurred. No statistically significant differences between the 2 groups were noted regarding the Glasgow Coma Scale and the Pediatric Trauma Score. Orthopaedic injuries were the most common, occurring in 58 (60%) children, followed by head injury in 34 (35%) and intraabdominal/intrathoracic injuries in 23 (24%). Nineteen (20%) children had more than 1 system involved, and 1 had 3 systems involved. Sixty-eight fractures occurred in 58 children (38 in group A and 30 in group B) including 9 open fractures. As expected, older children had a significantly increased body mass index compared with younger children (P < 0.02). Age-related patterns of fracture were observed. Younger children (or=13 years). Older children were more likely to sustain a pelvic fracture (odds ratio 1.108, P < 0.04). CONCLUSIONS: To our knowledge, this is the first study to evaluate age-related patterns of fractures in ATV-related accidents. It is our hope that increased awareness of the severity and types of injuries and fracture patterns will lead to more rapid diagnosis and help to bring about improved safety measures, increased public awareness, and even legislation concerning the use of ATVs by children. LEVEL OF EVIDENCE: Level IV.