Impact of Training and Practice Environment on Academic Productivity of Early Career Academic Neurosurgeons

Background: Factors affecting academic productivity of neurosurgeons are increasingly being studied. In the current investigation, we retrospectively reviewed a cohort of early career neurosurgeons to determine if their medical education, residency training, or academic employer had the most influence on a young academician\u27s productivity. Methods: We studied early career neurosurgeons who completed residency in U.S.-based neurosurgical training programs between 2010 and 2014. The ranking of an individual subject\u27s medical school, residency, and current academic employer were analyzed for correlation with his or her current h-index. Results: The neurosurgeons with the highest h-indexes are more likely to have attended elite medical schools, have trained in high-ranking residency programs, and work for prestigious university departments (P \u3c 0.0001). Furthermore, we identified a positive correlation between the subjects’ academic productivity and the ranking of all the institutions throughout their medical education, training, and current employment. The strongest correlation was with the rank of their residency program (ρ = 0.52). Conclusions: There is a correlation between the early career academic neurosurgeons’ h-indexes and the ranking of all the institutions throughout their education, training, and current employment, but the strongest correlation was with the academic productivity of their residency program

Evolution of the Intracranial Approaches to Jugular Foramen Tumors: A Surgeon\u27s Personal Perspective Through Three Illustrative Cases.

Tumors of the jugular foramen remain challenging lesions despite advances in surgical technique and medical technology. Tumors with extensive extra- and intracranial components necessitate both radical neck dissection maneuvers combined with skull base approaches. We present a single surgeon\u27s perspective in managing these difficult tumors

The Use of Augmented Reality to Improve Safety of Anterior Petrosectomy: Two-Dimensional Operative Video.

An anterior petrosectomy (AP) provides access to the upper petroclival region, but approach-related complications include seizures and temporal lobe hematomas

Optimization of skull base exposure using navigation-integrated, virtual reality templates

In many skull base procedures, arriving at the optimal bone exposure is important. Whereas insufficient exposure can jeopardize the operation itself, over-doing the exposure might lead to complications. We developed a new technique, harnessing the strength of Virtual Reality (VR) technology in planning, rehearsal and navigation, to achieve the optimal skull base exposure for resection of tumors. VR models of patient-specific anatomy were used to rehearse the surgical exposure. From the altered models, the one with the ideal exposure was chosen, integrated with the navigation system in the operating suite, and used as a template to achieve the optimal exposure in surgery. The use of these VR templates is demonstrated in two cases involving skull base tumors. In both cases, over-zealous bone removal could have increased the risk of complications, and inadequate exposure would jeopardize the tumor resection. Navigation guided by the VR templates aided the creation of the “ideal” surgical exposure to reach the surgical goals. Complete resections were achieved and neither patient suffered any approach-related complications. In conclusion, virtual reality is a powerful tool to improve the safety and efficacy of neurosurgical procedures. With preoperatively-altered VR templates, the surgeon is no longer navigating just to find bearings, but to duplicate an opening designed to simultaneously provide sufficient exposure while limiting postoperative complications. Intuitively useful and successful in early application, there has been no identifiable disadvantages to date

How I do it: superficial temporal artery to middle cerebral artery bypass for treatment of giant middle cerebral artery aneurysm.

BACKGROUND: Giant middle cerebral artery aneurysms are frequently anatomically complicated. Trapping may yield poor outcome, and bypass revascularization is often necessary as an adjunctive treatment to preserve flow. METHOD: The technical nuances of superficial temporal artery to middle cerebral artery bypass are described in the setting of clip reconstruction of giant middle cerebral artery (MCA) aneurysm. In addition to an operative video, the anatomy and surgical technique are demonstrated in virtual reality to enhance the didactic clarity. CONCLUSION: Meticulous technique is paramount for successful superficial temporal artery MCA bypass. Along with clip reconstruction, it is a critical part of the treatment of complex, giant MCA aneurysms

Supracerebellar Infratentorial Endoscopic and Endoscopic-Assisted Approaches to Pineal Lesions: Technical Report and Review of the Literature.

The pineal gland has a deep central location, making it a surgeon\u27s no man\u27s land. Surgical pathology within this territory presents a unique challenge and an opportunity for employment of various surgical techniques. In modern times, the microsurgical technique has been competing with the endoscope for achieving superior surgical results. We describe two cases utilizing a purely endoscopic and an endoscopic-assisted supracerebellar infratentorial approach in accessing lesions of the pineal gland. We also discuss our early learning experience with these approaches

Optimization of skull base exposure using navigation-integrated, virtual reality templates.

In many skull base procedures, arriving at the optimal bone exposure is important. Whereas insufficient exposure can jeopardize the operation itself, over-doing the exposure might lead to complications. We developed a new technique, harnessing the strength of Virtual Reality (VR) technology in planning, rehearsal and navigation, to achieve the optimal skull base exposure for resection of tumors. VR models of patient-specific anatomy were used to rehearse the surgical exposure. From the altered models, the one with the ideal exposure was chosen, integrated with the navigation system in the operating suite, and used as a template to achieve the optimal exposure in surgery. The use of these VR templates is demonstrated in two cases involving skull base tumors. In both cases, over-zealous bone removal could have increased the risk of complications, and inadequate exposure would jeopardize the tumor resection. Navigation guided by the VR templates aided the creation of the ideal surgical exposure to reach the surgical goals. Complete resections were achieved and neither patient suffered any approach-related complications. In conclusion, virtual reality is a powerful tool to improve the safety and efficacy of neurosurgical procedures. With preoperatively-altered VR templates, the surgeon is no longer navigating just to find bearings, but to duplicate an opening designed to simultaneously provide sufficient exposure while limiting postoperative complications. Intuitively useful and successful in early application, there has been no identifiable disadvantages to date

Neurosurgical management of patients with Ehlers–Danlos Syndrome: A descriptive case series

Introduction: Ehlers–Danlos syndrome (EDS) is a connective tissue disorder that has been linked to several neurological problems including Chiari malformations, atlantoaxial instability (AAI), craniocervical instability (CCI), and tethered cord syndrome. However, neurosurgical management strategies for this unique population have not been well-explored to date. The purpose of this study is to explore cases of EDS patients who required neurosurgical intervention to better characterize the neurological conditions they face and to better understand how neurosurgeons should approach the management of these patients. Methods: A retrospective review was done on all patients with a diagnosis of EDS who underwent a neurosurgical operation with the senior author (FAS) between January 2014 and December 2020. Demographic, clinical, operative, and outcome data were collected, with additional radiographic data collected on patients chosen as case illustrations. Results: Sixty-seven patients were identified who met the criteria for this study. The patients experienced a wide array of preoperative diagnoses, with Chiari malformation, AAI, CCI, and tethered cord syndrome representing the majority. The patients underwent a heterogeneous group of operations with the majority including a combination of the following procedures– suboccipital craniectomy, occipitocervical fusion, cervical fusion, odontoidectomy, and tethered cord release. The vast majority of patients experienced subjective symptomatic relief from their series of procedures. Conclusions: EDS patients are prone to instability, especially in the occipital-cervical region, which may predispose these patients to require a higher rate of revision procedures and may require modifications in neurosurgical management that should be further explored