Ventriculoperitoneal shunt placement following endoscopic third ventriculostomy failure in the treatment of pediatric hydrocephalus.

OBJECTIVE: The goal of this study was to evaluate the impact of endoscopic third ventriculostomy (ETV) failure on subsequent risk of ventriculoperitoneal shunt (VPS) placement. METHODS: A retrospective chart review was performed to identify pediatric patients receiving ETV followed by a VPS at Oklahoma Children's Hospital between January 1, 2016, and December 31, 2021. A control group of patients receiving a VPS alone was also gathered. Complication and shunt failure rates were compared between the 2 groups at 12 months postoperatively. RESULTS: A total of 222 patients were included in this study. The VPS placement after ETV failure (VPSEF) group included 21 patients; 53% were male and 47% were female, with a mean age of 2.2 years and standard deviation of 4.3 years. The etiology of hydrocephalus was chiefly intraventricular hemorrhage (43%) and neural tube defects (19%). At 12 months after VPS placement, the complication rate was 24%, predominantly including infection (19%) or CSF leakage (10%). The VPS-only (VPSO) group included 201 patients; 51% were male and 49% were female, with a mean age of 4.2 years and standard deviation of 6.5 years. The etiology of hydrocephalus was chiefly intraventricular hemorrhage (26%) and neural tube defects (30%). At 12 months postoperatively, the complication rate was 10%, predominantly including infection (6%) or catheter-associated hemorrhage (3%). The difference in complication rates between the VPSEF and VPSO groups was not significant at 12 months postoperatively (p = 0.07); however, on subgroup analysis there was a significantly higher rate of CSF leakage at 12 months in the VPSEF group compared to the VPSO group (p = 0.0371). CONCLUSIONS: There was no difference in overall complication rates for the treatment of pediatric hydrocephalus by VPS following failed ETV compared to VPS placement alone, yet prior ETV may predispose patients to a higher rate of CSF leaks within 12 months of VPS placement. Further study is indicated to determine whether a prior ETV procedure predisposes patients to a higher complication rate on VPS placement.

Pediatric neurosurgery through the lens of time-driven activity-based costing: a pilot study.

OBJECTIVE: Time-driven activity-based costing (TDABC) is a method used in cost accounting that has gained traction in health economics to identify value optimization initiatives. It measures time, assigns value to time increments spent on a patient, and integrates the cost of material and human resources utilized in each episode of care. In this study, the authors report the first use of TDABC to evaluate costs in a pediatric neurosurgical practice. METHODS: A clinical pathway was developed with a multifunction team. A time survey among each care team member, including surgeons, medical assistants (MAs), and patient service representatives (PSRs), was carried out prospectively over a 10-week period at a pediatric neurosurgery clinic. Consecutive patient encounters for Chiari malformation (CM), hydrocephalus, or tethered cord syndrome (TCS) were included. Encounters were categorized as new or established. Relative annual personnel costs, using the salary of a PSR as a reference (i.e., 1.0-unit cost), were calculated for all members using departmental financial data after adjustments. The relative capacity cost rates (minute-1) for each personnel, a representation of per capita cost per minute, were then derived, and the relative costs per visit were calculated. RESULTS: A total of 110 visits (24 new, 86 established) were captured, including 40% CM, 41% hydrocephalus, and 19% TCS encounters. Surgeons had the highest relative capacity cost rate (118.4 × 10-6), more than 10-fold higher than that of an MA or PSR (10.65 × 10-6 and 9.259 × 10-6, respectively). Surgeons also logged more time with patients compared with the rest of the care team in nearly all visits (p ≤ 0.002); consequently, the total visit costs were primarily driven by the surgeon cost (p < 0.0001). Overall, surgeon cost constituted the vast majority of the total visit cost (92%-93%), regardless of whether the visits were new or established. Visit costs did not differ by diagnosis. On average, new visits took longer than established visits (p < 0.001). This difference was largely driven by new CM visits (44.3 ± 13.7 minutes), which were significantly longer than established CM visits (29.8 ± 9.2 minutes; p = 0.001). CONCLUSIONS: TDABC may reveal opportunities to maximize value by highlighting instances of variability and high cost in each module of care delivery. Physician leaders in pediatric neurosurgery may be able to use this information to allocate costs and streamline value care pathways.

Learning Curve in Robotic Stereoelectroencephalography: Single Platform Experience.

BACKGROUND: Learning curve, training, and cost impede widespread implementation of new technology. Neurosurgical robotic technology introduces challenges to visuospatial reasoning and requires the acquisition of new fine motor skills. Studies detailing operative workflow, learning curve, and patient outcomes are needed to describe the utility and cost-effectiveness of new robotic technology. METHODS: A retrospective analysis was performed of pediatric patients who underwent robotic stereoelectroencephalography (sEEG) with the Medtronic Stealth Autoguide. Workflow, total operative time, and time per electrode were evaluated alongside target accuracy assessed via error measurements and root sum square. Patient demographics and clinical outcomes related to sEEG were also assessed. RESULTS: Robot-assisted sEEG was performed in 12 pediatric patients. Comparison of cases over time demonstrated a mean operative time of 363.3 ± 109.5 minutes for the first 6 cases and 256.3 ± 59.1 minutes for the second 6 cases, with reduced operative time per electrode (P = 0.037). Mean entry point error, target point error, and depth point error were 1.82 ± 0.77 mm, 2.26 ± 0.71 mm, and 1.27 ± 0.53 mm, respectively, with mean root sum square of 3.23 ± 0.97 mm. Error measurements between magnetic resonance imaging and computed tomography angiography found computed tomography angiography to be more accurate with significant differences in mean entry point error (P = 0.043) and mean target point error (P = 0.035). The epileptogenic zone was identified in 11 patients, with therapeutic surgeries following in 9 patients, of whom 78% achieved an Engel class I. CONCLUSIONS: This study demonstrated institutional workflow evolution and learning curve for the Autoguide in pediatric sEEG, resulting in reduced operative times and increased accuracy over a small number of cases. The platform may seamlessly and quickly be incorporated into clinical practice, and the provided workflow can facilitate a smooth transition.

A systematic review of the power of standardization in pediatric neurosurgery.

In the current neurosurgical field, there is a constant emphasis on providing the best care with the most value. Such work requires the constant optimization of not only surgical but also perioperative services. Recent work has demonstrated the power of standardized techniques in limiting complication while promoting optimal outcomes. In this review article, protocols addressing operative and perioperative care for common pediatric neurosurgical procedures are discussed. These articles address how various institutions have optimized procedures through standardization. Our objective is to improve patient outcomes through the optimization of protocols.

Aspirator-Assisted Endoscopic Third Ventriculostomy in an Infant: 2-Dimensional Operative Video.

Endoscopic third ventriculostomy (ETV) is an effective treatment for hydrocephalus in carefully selected patients.1 Studies have shown that larger ostomy size may be associated with higher ETV success and reduced ostomy closure in pediatric and adult patients.2-5 Therefore dilation of the ostomy is a key step in this procedure, which is traditionally accomplished with a balloon catheter, leaving behind loose redundant tissue at the ostomy site. In this 2-dimensional endoscopic operation (Video 1), we demonstrate the technique of using an aspiration device to enlarge the ETV ostomy in a controlled and efficient manner while eliminating redundant tissue. The patient is a 6-month-old girl with newly developed triventricular hydrocephalus seen on head ultrasound, manifested as upward gaze palsy, fontanelle fullness, and rapidly increasing head circumference. We chose to treat her with an ETV, given an ETV success score of 70.6,7 She underwent an ETV augmented with the NICO Myriad aspirator (NICO Corporation, Indianapolis, Indiana, USA) and achieved excellent clinical outcome. No intraoperative or postoperative complication occurred. Postoperative magnetic resonance imaging demonstrated an 8.4-mm ostomy on the third ventricular floor, nearly twice the size of a typical ETV ostomy.5 The key considerations in using this device include setting a low aspiration limit to avoid oversuction and using only mediolateral motion to avoid damage to the basilar artery. Future comparative studies are needed to investigate the efficacy, safety, and long-term outcome in aspirator-assisted ETV versus traditional techniques, as well as to evaluate ostomy size as an independent variable for long-term ETV success.

The evolution of stereoelectroencephalography: symbiotic progress in medical imaging and procedural technologies.

Stereoelectroencephalography (sEEG) was pioneered in France, at a time when cerebral anatomy was invisible to contemporaneous imaging modalities. Epilepsy surgeons relied on indirect targeting techniques to identify epileptogenic tissue. Since then, alongside the rapid rise of medical imaging technology, sEEG has experienced dramatic stepwise progress. A flurry of advancements has pushed this technique to its current-day standards, enabling neurosurgeons to access any intracranial location in a safe, highly precise, and expeditious manner. Presently, epilepsy surgeons throughout the world apply robot-assisted sEEG. Herein, the authors chronicle this incredible evolution.

Surgical management of pediatric occipital neuralgia: a single-center experience of an uncommon pathology.

OBJECTIVE: Occipital neuralgia (ON) is a rare headache disorder characterized by sharp pain in the distribution of the greater occipital nerve (GON), lesser occipital nerve, or third occipital nerve. ON is commonly associated with traumatic injury, and effective identification and diagnosis can be difficult given the infrequent presentation and similarities to other pediatric headache disorders. While GON decompression has been well described in adults for refractory pain, there is a paucity of data in the pediatric population, with no previously published series on ON. The primary aim of this study was to identify the characteristics of pediatric patients with ON prior to surgical intervention and to describe the natural history of postoperative outcomes after decompression or neurectomy in a pediatric population. METHODS: A single-center retrospective case series was performed to evaluate factors predisposing children to refractory ON and the surgical efficacy of GON decompression or neurectomy. Six patients (mean age 15.0 ± 2.2 years) were identified for inclusion from October 2021 to October 2022. All patients had refractory ON as diagnosed by a pediatric neurologist. After medical therapy and repeated occipital nerve blocks failed, the patients were referred for GON decompression. Five patients had a history of trauma. RESULTS: Six patients were identified and treated in our cohort, highlighting the infrequency of this pathology. All had at least one occipital nerve block, with 83% receiving varied relief. All underwent bilateral decompression or neurectomy of the GON and experienced relief, reporting improved visual analog scale scores (mean 8.3 ± 0.9 preoperatively to 1.0 ± 2.2 postoperatively, p = 0.0009). The patients were followed for an average of 10 months, and their mean number of medications decreased from 2.7 ± 0.5 preoperatively to 0.8 ± 0.7 postoperatively (p = 0.019). Each patient reported numbness or tingling in the GON distribution postoperatively, which spontaneously resolved over time. Two patients had recurrent pain in a delayed fashion. CONCLUSIONS: GON decompression and neurectomy are efficacious treatments of refractory ON in the pediatric population.

Deep brain stimulation in a pediatric dystonia patient with cochlear implants and mitochondrial disorder: novel application of a frameless stereotactic system and navigating the anesthesia choice and neurosurgical complexities. Illustrative case.

BACKGROUND: This report presents a case of medically refractory dystonia in a pediatric patient successfully treated with bilateral subthalamic nucleus (STN) deep brain stimulation (DBS) while under general anesthesia by using microelectrode recordings (MERs) with intraoperative computed tomography (CT). OBSERVATIONS: The patient was an 18-year-old female with primary dystonia secondary to mitochondrial Leigh syndrome. Her past medical history was significant for complex partial epilepsy and hearing loss treated with cochlear implants. Her cochlear implants precluded anatomical targeting via magnetic resonance imaging. Additionally, the patient could not tolerate awake surgery with MER. The decision was made to proceed with bilateral STN DBS with intraoperative CT with the patient under general anesthesia. The patient's cochlear implants made standard frame placement difficult, so navigation was performed with the Nexframe system. Recordings were obtained with the patient under general anesthesia with ketamine, dexmedetomidine, and remifentanil. At the 3- and 6-month follow-ups, the patient demonstrated marked improvement in dystonia without neurological complications. LESSONS: This is the first case of dystonia secondary to Leigh syndrome treated with DBS. Additionally, the authors describe the novel use of the Nexframe for DBS lead placement in a pediatric patient. This demonstrates that STN DBS with the use of MER and intraoperative CT can be a safe and effective method of treating dystonia in certain pediatric patients.

Treatment of pediatric trigeminal neuralgia with microvascular decompression: a case series and systematic review.

OBJECTIVE: Trigeminal neuralgia (TN) is a rare disorder, affecting 4-13 per 100,000 people annually. Only 1%-1.5% of these cases are reported before the age of 18 years. The initial management of pediatric TN is based on symptomatic treatment, using first-line medications including carbamazepine, based on data from adult treatment studies. Many of these children are refractory to medication and undergo excessive workup and ineffective therapies before neurosurgical referral. The objective of this study was to perform a comprehensive review of literature-reported pediatric-onset TN, analyzing demographics, diagnostic practices, and complications in this population. METHODS: An institutional, retrospective chart review was performed to identify patients younger than 18 years old who were diagnosed with classic TN and referred for surgical evaluation at Oklahoma Children's Hospital (OCH). A systematic review of all pediatric patients undergoing microvascular decompression (MVD) for pediatric-onset TN was also performed. RESULTS: Three patients from OCH were identified, ranging in age from 3 to 11 years. All 3 patients had received multiple ineffective medical therapies before referral for neurosurgical evaluation. In 2 cases, imaging demonstrated potential vascular compression of the trigeminal nerve. In the final case, imaging demonstrated no vascular compression, but compression was found at the time of MVD. All cases were successfully treated using MVD. The literature review identified 49 cases of pediatric TN treated using MVD. All 49 cases were identified as classic TN with neurovascular compression demonstrated either on imaging or found at the time of surgery. The average age at symptom onset was 11.72 years, while the average age at MVD was 19.6 years. The average duration of symptoms before undergoing MVD was 8.2 years. There was a female predominance in the literature review, with a female-to-male ratio of 1.88:1. The right side was involved in 56% of cases, the left side in 40%, and bilateral involvement occurred in 4% of cases. The most common distribution of TN was both V2/3 branches (38%) of the trigeminal nerve, followed by solely the V2 branch (22%). A successful outcome (Barrow Neurological Institute pain intensity score of I or II) was reported in 79% of patients at the last follow-up (mean 69.1 months). CONCLUSIONS: There are currently no guidelines for diagnosing or treating pediatric TN. MVD is a safe and effective option in this patient population. Early evaluation for surgical intervention could be critical for early pain relief and reduced disease morbidity.

Accuracy of Depth Electrodes is Not Time-Dependent in Robot-Assisted Stereoelectroencephalography in a Pediatric Population.

BACKGROUND AND OBJECTIVES: Robot-assisted stereoelectroencephalography (sEEG) is steadily supplanting traditional frameless and frame-based modalities for minimally invasive depth electrode placement in epilepsy workup. Accuracy rates similar to gold-standard frame-based techniques have been achieved, with improved operative efficiency. Limitations in cranial fixation and placement of trajectories in pediatric patients are believed to contribute to a time-dependent accumulation of stereotactic error. Thus, we aim to study the impact of time as a marker of cumulative stereotactic error during robotic sEEG. METHODS: All patients between October 2018 and June 2022 who underwent robotic sEEG were included. Radial errors at entry and target points as well as depth and Euclidean distance errors were collected for each electrode, excluding those with errors over 10 mm. Target point errors were standardized by planned trajectory length. ANOVA and error rates over time were analyzed using GraphPad Prism 9. RESULTS: Forty-four patients met inclusion criteria for a total of 539 trajectories. Number of electrodes placed ranged from 6 to 22. Average root mean squared error was 0.45 ± 0.12 mm. Average entry, target, depth, and Euclidean distance errors were 1.12 ± 0.41 mm, 1.46 ± 0.44 mm, -1.06 ± 1.43 mm, and 3.01 ± 0.71 mm, respectively. There was no significant increased error with each sequential electrode placed (entry error P -value = .54, target error P -value = .13, depth error P -value = .22, Euclidean distance P -value = .27). CONCLUSION: No decremental accuracy over time was observed. This may be secondary to our workflow which prioritizes oblique and longer trajectories first and then into less error-prone trajectories. Further study on the effect of level of training may reveal a novel difference in error rates.

Concomitant brain abscess and spinal cord abscess in an immunocompetent teenage male: illustrative case.

BACKGROUND: Multiple bilateral brain abscesses occur rarely in immunocompetent patients. Hematogenous spread to the central nervous system (CNS) allows suppuration and abscess formation in the privileged immune environment of the CNS; hematogenous spread to the spinal cord is extremely rare and the combination of multifocal brain abscesses and intramedullary abscesses has not been reported. This report presents a rare presentation and diagrams a treatment algorithm involving iterative minimal access surgeries and prolonged medical management. OBSERVATIONS: The authors present a case of an 18-year-old male with numerous multifocal and bilateral intraparenchymal abscesses and a medically resistant C5 intramedullary spinal cord abscess. The symptomatic patient had a left oculomotor palsy and left hemiparesis, ultimately undergoing ultrasound-guided aspiration of abscesses in the left frontal and left cerebral peduncle. Following transient motor improvement, he evolved tetraparesis prompting spinal cord imaging and emergent ultrasound-guided needle aspiration of an occult C5 intramedullary spinal cord abscess. The patient received appropriate medical therapy, completed inpatient rehabilitation, and made a full recovery. LESSONS: Needle- and ultrasound-guided catheter drainage of CNS abscesses should be considered for symptomatic lesions. Following the neurological examination closely is extremely important; if the expected neurological improvement is delayed or regresses, then expanded imaging is warranted.

Influence of the living Pareto chart and data transparency on patient outcomes in neurosurgery.

OBJECTIVE: Quality improvement (QI) tools are increasingly being used to calibrate healthcare quality. Achieving healthcare quality is essential, as there is a movement toward value-based healthcare delivery. Visual management, such as a living Pareto chart, is a strategy for improvement within the QI framework. The authors herein hypothesized that transparency of data through a living Pareto chart is a powerful way to improve patient outcomes and gain clinical efficiency. METHODS: The authors retrospectively reviewed patient outcomes and complications; cerebrospinal fluid (CSF) leaks; shunt, baclofen, and other surgical site infections; readmission rates; and same- or next-day appointments in a cohort of patients at the Riley Hospital for Children from November 1, 2016, to May 31, 2020. Similarly, they reviewed neurosurgical outcomes and complications at a second institution, the Oklahoma Children's Hospital, where a living Pareto chart was utilized from February 1, 2021, to March 31, 2022. The discrete frequency and rates per month of outcomes and complications were graphed on scatterplots, Pearson correlation coefficients were calculated to measure the strength of the relationship between event frequency and time, and best-fit lines illustrated the relationship between those points through the least-squares method. RESULTS: At both the Riley Hospital for Children and Oklahoma Children's Hospital, the use of a living Pareto chart to display data transparently was associated with decreasing infections, and it was associated with decreasing readmissions at Riley. On the other hand, it encouraged same- or next-day clinic appointments to be offered to patients and families. Interestingly, CSF leaks were not mitigated with data transparency alone. CONCLUSIONS: Transparency is a driver of change in patient, provider, and institutional behaviors. It is an essential element of QI and patient safety, as well as building a culture of trust. Readmissions, infections, and same- or next-day appointments were influenced by the living Pareto chart; however, CSF leaks remained recalcitrant to data transparency. Other QI strategies may be necessary to positively affect the occurrence of CSF leaks in neurosurgery.

Academic productivity in pediatric neurosurgery in relation to elective surgery slowdown during the COVID-19 pandemic.

OBJECTIVE: COVID-19 has not only impacted healthcare systems directly via hospitalizations and resource utilization, but also indirectly via adaptations in healthcare practice, such as the evolution of the academic environment and the rise of telemedicine and virtual education. This void in clinical responsibilities has been filled with academic productivity in various fields. In this study the authors investigate the influence of COVID-19 on the academic focus within pediatric neurosurgery. METHODS: All data were obtained from the Journal of Neurosurgery: Pediatrics (JNS Peds). The number of submissions for each month from January 2017 to December 2021 was collected. Data including number of publications, publication level of evidence (LOE), and COVID-19-related articles were collected and verified. Each publication was categorized by manuscript and LOE according to adaptations from the Canadian Task Force on Periodic Health Examination. Publication groups were categorized as pre-COVID-19 (January 2017-February 2020), peri-COVID-19 (March 2020-July 2020), and post-COVID-19 (August 2020-December 2021). Statistical analysis was performed to compare pre-COVID-19, peri-COVID-19, and post-COVID-19 academic volume and quality. RESULTS: During the study time period, a total of 3116 submissions and 997 publications were identified for JNS Peds. Only 2 articles specifically related to COVID-19 and its impact on pediatric neurosurgery were identified, both published in 2021. When analyzing submission volume, a statistically significant increase was seen during the shutdown relative to pre-COVID-19 and post-shutdown time periods, and a significant decrease was seen post-shutdown relative to pre-COVID-19. LOE changed significantly as well. When comparing pre-COVID-19 versus post-COVID-19 articles, a statistically significant increase was identified only in level 4 publications. When analyzing pre-COVID-19 versus post-COVID-19 (2020) and post-COVID-19 (2021), a statistically significant decrease in level 3 and increases in levels 4 and 5 were identified during post-COVID-19 (2020), with a rebound increase in level 3 and a decrease in level 5 during post-COVID-19 (2021). CONCLUSIONS: There was a significant increase in manuscript submission during the initial pandemic period. However, there was no change during subsequent spikes in COVID-19-related hospitalizations. Coincident with the initial surge in academic productivity, despite steady publication volume, was an inverse decline in quality as assessed by LOE.

The Role of Instrumentation in the Surgical Treatment of Spondylodiscitis and Spinal Epidural Abscess: A Single-Center Retrospective Cohort Study.

BACKGROUND: Despite the high incidence of spinal infections that require an operation, there is no consensus on the most appropriate initial surgical management for these patients regarding decompression with vs without instrumented fusion. In this study, we investigated the differences in clinical outcomes, complication rates, and reoperation rates between patients with spinal epidural abscess who underwent decompression alone vs decompression with instrumented fusion. METHODS: Records of patients undergoing operative intervention for spondylodiscitis with spinal epidural abscess at the authors' institution between 2011 and 2018 were reviewed. Two cohorts were observed: patients who underwent decompression alone and patients who underwent decompression with instrumented fusion as the initial operation. Patient demographics and primary outcomes were analyzed and compared. RESULTS: Medical records of 74 patients with spinal infection were reviewed, and 47 patients met the inclusion criteria. There were 27 (57.4%) patients who underwent decompression alone and 20 (42.6%) patients who underwent decompression and fusion. There were no significant differences in the comorbidities, level, and/or extent of infectious involvement between the decompression alone cohort and the decompression with fusion cohort. Although no significant differences were seen between groups with regard to complication rates and neurological outcomes, the reoperation rate was significantly higher in the patients who underwent decompression alone (51.9% vs 10%, P = 0.004). CONCLUSIONS: Decompression with instrumented fusion delivers neurological outcomes and complication rates similar to those seen with decompression alone in patients with spondylodiscitis. However, there was a significantly higher reoperation rate in the decompression only cohort compared to the decompression and fusion cohort.

A contemporary review of therapeutic and regenerative management of intracerebral hemorrhage.

Intracerebral hemorrhage (ICH) remains a common and debilitating form of stroke. This neurological emergency must be diagnosed and treated rapidly yet effectively. In this article, we review the medical, surgical, repair, and regenerative treatment options for managing ICH. Topics of focus include the management of blood pressure, intracranial pressure, coagulopathy, and intraventricular hemorrhage, as well as the role of surgery, regeneration, rehabilitation, and secondary prevention. Results of various phase II and III trials are incorporated. In summary, ICH patients should undergo rapid evaluation with neuroimaging, and early interventions should include systolic blood pressure control in the range of 140 mmHg, correction of coagulopathy if indicated, and assessment for surgical intervention. ICH patients should be managed in dedicated neurosurgical intensive care or stroke units where continuous monitoring of neurological status and evaluation for neurological deterioration is rapidly possible. Extravasation of hematoma may be helpful in patients with intraventricular extension of ICH. The goal of care is to reduce mortality and enable multimodal rehabilitative therapy.

First in Man Pilot Feasibility Study in Extracranial Carotid Robotic-Assisted Endovascular Intervention.

BACKGROUND: Robotic-assistance in endovascular intervention represents a nascent yet promising innovation. OBJECTIVE: To present the first human experience utilizing robotic-assisted angiography in the extracranial carotid circulation. METHODS: Between March 2019 and September 2019, patients with extracranial carotid circulation pathology presenting to Houston Methodist Hospital were enrolled. RESULTS: A total of 6 patients met inclusion criteria: 5 underwent diagnostic angiography only with robotic-assisted catheter manipulation, while 1 underwent both diagnostic followed by delayed therapeutic intervention. Mean age was 51 +/- 17.5 yr. Mean anesthesia time was 158.7 +/- 37.9 min, mean fluoroscopic time was 22.0 +/- 7.3 min, and mean radiation dose was 815.0 +/- 517.0 mGy. There were no technical complications and no clinical deficits postprocedure. None of the cases required conversion to manual neurovascular intervention (NVI). CONCLUSION: Incorporating robotic technology in NVI can enhance procedural technique and diminish occupational hazards. Its application in the coronary and peripheral vascular settings has established safety and efficacy, but in the neurovascular setting, this has yet to be demonstrated. This study presents the first in human feasibility experience of robotic-assisted NVI in the extracranial carotid circulation.

Resection of Spinal Meningioma Using Ultrasonic BoneScalpel Microshaver: Cases, Technique, and Review of the Literature.

BACKGROUND: Meningiomas of the spinal canal comprise up to 40% of all spinal tumors. The standard management of these tumors is gross total resection. The outcome and extent of resection depends on location, size, patient's neurologic status, and experience of the surgeon. Heavily calcified spinal meningiomas often pose a challenge for achieving gross total resection without cord injury. OBJECTIVE: To report our experience with the BoneScalpel Micro-shaver to resect heavily calcified areas of spinal meningiomas adherent to the spinal cord without significant cord manipulation, achieving gross total resection and outstanding clinical results. METHODS: Seventy-nine and 82-yr-old females presented with progressive leg weakness, paresthesias, and gait instability. Magnetic resonance imaging of the thoracic spine showed a homogenous enhancing intradural extramedullary mass with mass effect on the spinal cord. Midline bilateral laminectomy was performed, and the dura was open in midline. The lateral portion of the tumor away from the spinal cord was resected with Cavitron Ultrasonic Surgical Aspirator while the BoneScalpel Micro-shaver (power level 5 and 30% irrigation) was brought into the field for the calcified portion of the tumor adherent to the spinal cord. RESULTS: Gross total resection was achieved for both cases. At the 2-wk postoperative visit, both patients reported complete recovery of their leg weakness with significant improvement in paresthesias and ataxia. CONCLUSION: The ultrasonic osteotome equipped with a microhook tip appears to be a safe surgical instrument allowing for effective resection of spinal meningiomas or other heavily calcified spinal masses not easily removed by usual surgical instrumentation.