Eric W. Sherburn scite author profile

Birth-related brachial plexus injury occurs in 0.19–2.5 per 1,000 live births, of which 70–92% improve with conservative management. With the advent of microsurgical techniques, patients who fail expectant treatment may benefit from brachial plexus exploration and reconstruction. From 1991 to 1996, 87 patients were referred to the multidisciplinary brachial plexus clinic at St. Louis Children’s Hospital. Twenty patients were selected for surgical management. The average age at surgery was 10.5 months (range 3–35, median = 8), with an average follow-up of 23.9 months (range 7–45, median = 24). Two patients were lost to follow-up. Surgical procedures included neurolysis (n = 8), neurotization (n = 2), nerve grafting (n = 5), and a combination (n = 3) of the above. Two patients underwent exploration without repair. Intercostal nerves, pectoral nerves, and C4 roots were used for neurotizations, and the sural nerve was used for nerve grafting. Results from 18 patients were available for follow-up review. Fifteen patients (83% demonstrated clinical improvement postoperatively. Of the 3 patients without improvement, 2 underwent exploration without repair, and one underwent neurolysis of the axillary nerve. Of patients undergoing reconstruction, 93% had improved strength postoperatively. No subjects had worsening neurologic status, and there were no complications. These results suggest that surgery for birth-related brachial plexus injury may show favorable outcomes if patients are selected appropriately. Patients undergoing neurolysis and nerve grafting had more favorable outcomes than those undergoing neurotization.

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Intracranial aneurysm: anatomic factors that predict the usefulness of intraoperative angiography.

Derdeyn¹,

Moran²,

Cross³

et al. 1997

Radiology

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Sport-Related Structural Brain Injury and Return to Play: Systematic Review and Expert Insight

et al. 2021

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BACKGROUND Sport-related structural brain injury (SRSBI) is intracranial pathology incurred during sport. Management mirrors that of non-sport-related brain injury. An empirical vacuum exists regarding return to play (RTP) following SRSBI. OBJECTIVE To provide key insight for operative management and RTP following SRSBI using a (1) focused systematic review and (2) survey of expert opinions. METHODS A systematic literature review of SRSBI from 2012 to present in accordance with Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines and a cross-sectional survey of RTP in SRSBI by 31 international neurosurgeons was conducted. RESULTS Of 27 included articles out of 241 systematically reviewed, 9 (33.0%) case reports provided RTP information for 12 athletes. To assess expert opinion, 31 of 32 neurosurgeons (96.9%) provided survey responses. For acute, asymptomatic SRSBI, 12 (38.7%) would not operate. Of the 19 (61.3%) who would operate, midline shift (63.2%) and hemorrhage size > 10 mm (52.6%) were the most common indications. Following SRSBI with resolved hemorrhage, with or without burr holes, the majority of experts (>75%) allowed RTP to high-contact/collision sports at 6 to 12 mo. Approximately 80% of experts did not endorse RTP to high-contact/collision sports for athletes with persistent hemorrhage. Following craniotomy for SRSBI, 40% to 50% of experts considered RTP at 6 to 12 mo. Linear regression revealed that experts allowed earlier RTP at higher levels of play (β = –0.58, 95% CI –0.111, –0.005, P = .033). CONCLUSION RTP decisions following structural brain injury in athletes are markedly heterogeneous. While individualized RTP decisions are critical, aggregated expert opinions from 31 international sports neurosurgeons provide key insight. Level of play was found to be an important consideration in RTP determinations.

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Subdental Synchondrosis Fracture in Children: The Value of 3-Dimensional Computerized Tomography

Sherburn¹,

Day²,

Kaufman³

et al. 1996

Pediatr Neurosurg

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A case is presented illustrating the usefulness of computerized tomography (CT) with 3-dimensional (3-D) reconstruction for evaluation of a subdental synchondrosis fracture in a child. Odontoid fractures in children less than 7 years of age occur at the subdental synchondrosis and are typically diagnosed with plain x-rays. However, a delay in diagnosis is common as these injuries may not be appreciated on initial roentgenographic evaluation. The authors present a case of a 2-year-old boy with a subdental synchondrosis fracture secondary to trauma. In this patient, plain x-ray and conventional axial CT failed to definitively elucidate the child’s injuries; however, the use of CT with 3-D reconstruction fully delineated the injury. The use of CT with 3-D reconstruction in evaluating children with subdental synchondrosis fractures is a valuable tool for diagnosis. The treatment of synchondrosis fractures of the odontoid process in children is immobilization of the cervical spine.

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Gliomas in rodent whisker barrel cortex: a new tumor model

Sherburn¹,

Wanebo²,

Kim³

et al. 1999

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Both DBT and C6 glioma cell lines can be used to generate malignant glial tumors reproducibly in the whisker barrel cortex. Fluorescent labeling and cytochrome oxidase staining permit visualization of tumor growth patterns, which disrupt the barrel cortex by microscopic invasion and by gross tissue deformation. Magnetic resonance imaging demonstrates the anatomical extension of these tumors in live rodents. Using this model for further studies on the effects of malignant glioma growth on functional cerebral cortex should advance our understanding of the neurological issues and management of patients with these tumors.

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Eric W. Sherburn

Outcome of Surgically Treated Birth-Related Brachial Plexus Injuries in Twenty Cases

Intracranial aneurysm: anatomic factors that predict the usefulness of intraoperative angiography.

Sport-Related Structural Brain Injury and Return to Play: Systematic Review and Expert Insight

Subdental Synchondrosis Fracture in Children: The Value of 3-Dimensional Computerized Tomography

Gliomas in rodent whisker barrel cortex: a new tumor model

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