Current Applications of VR/AR (Virtual Reality/Augmented Reality) in Pediatric Neurosurgery.

Neurosurgical procedures are some of the most complex procedures in medicine and since the advent of the field, planning, performing, and learning them has challenged the neurosurgeon. Virtual reality (VR) and augmented reality (AR) are making these challenges more manageable. VR refers to a virtual digital environment that can be experienced usually through use of stereoscopic glasses and controllers. AR, on the other hand, fuses the natural environment with virtual images, such as superimposing a preoperative MRI image on to the surgical field [1]. They initially were used primarily as neuronavigational tools but soon their potential in other areas of surgery, such as planning, education, and assessment, was noted and explored. Through this chapter, we outline the history and evolution of these two technologies over the past few decades, describe the current state of the technology and its uses, and postulate future directions for research and implementation.

Evaluation of the safety, accuracy, and helpfulness of the GPT-4.0 Large Language Model in neurosurgery.

BACKGROUND: Although prior work demonstrated the surprising accuracy of Large Language Models (LLMs) on neurosurgery board-style questions, their use in day-to-day clinical situations warrants further investigation. This study assessed GPT-4.0's responses to common clinical questions across various subspecialties of neurosurgery. METHODS: A panel of attending neurosurgeons formulated 35 general neurosurgical questions spanning neuro-oncology, spine, vascular, functional, pediatrics, and trauma. All questions were input into GPT-4.0 with a prespecified, standard prompt. Responses were evaluated by two attending neurosurgeons, each on a standardized scale for accuracy, safety, and helpfulness. Citations were indexed and evaluated against identifiable database references. RESULTS: GPT-4.0 responses were consistent with current medical guidelines and accounted for recent advances in the field 92.8 % and 78.6 % of the time respectively. Neurosurgeons reported GPT-4.0 responses providing unrealistic information or potentially risky information 14.3 % and 7.1 % of the time respectively. Assessed on 5-point scales, responses suggested that GPT-4.0 was clinically useful (4.0 ± 0.6), relevant (4.7 ± 0.3), and coherent (4.9 ± 0.2). The depth of clinical responses varied (3.7 ± 0.6), and "red flag" symptoms were missed 7.1 % of the time. Moreover, GPT-4.0 cited 86 references (2.46 citations per answer), of which only 50 % were deemed valid, and 77.1 % of responses contained at least one inappropriate citation. CONCLUSION: Current general LLM technology can offer generally accurate, safe, and helpful neurosurgical information, but may not fully evaluate medical literature or recent field advances. Citation generation and usage remains unreliable. As this technology becomes more ubiquitous, clinicians will need to exercise caution when dealing with it in practice.

hglobal-Index: A Novel Author-Level Measure of the Diffusion of Scientific Ideas Among High-, Low-, and Middle-Income Countries.

OBJECTIVE: To describe an intuitive and useful method for measuring the global impact of a medical scholar's research ideas by examining cross-border citations (CBCs) of peer-reviewed neurosurgical publications. METHODS: Publication and citation data for a random sample of the top 50 most academically productive neurosurgeons were obtained from Scopus Application Programming Interface. We characterized an author-level global impact index analogous to the widely used h-index, the hglobal-index, defined as the number of published peer-reviewed manuscripts with at least the same number of CBCs. To uncover socioeconomic insights, we explored the hglobal-index for high-, middle-, and low-income countries. RESULTS: The median (interquartile range) number of publications and CBCs were 144 (62-255) and 2704 (959-5325), respectively. The median (interquartile range) h-index and hglobal-index were 42 (23-61) and 32 (17-38), respectively. Compared with neurosurgeons in the random sample, the 3 global neurosurgeons had the highest hglobal-indices in low-income countries at 17, 13, and 9, despite below-average h-index scores of 33, 38, and 19, respectively. CONCLUSION: This intuitive update to the h-index uses CBCs to measure the global impact of scientific research. The hglobal-index may provide insight into global diffusion of medical ideas, which can be used for social science research, author self-assessment, and academic promotion.

Global Neurosurgery Advances From Trenches to Bedside: Lessons From Neurosurgical Care in War, Humanitarian Assistance, and Disaster Response.

INTRODUCTION: War has influenced the evolution of global neurosurgery throughout the past century. Armed conflict and mass casualty disasters (MCDs), including Humanitarian Assistance Disaster Relief missions, require military surgeons to innovate to meet extreme demands. However, the military medical apparatus is seldom integrated into the civilian health care sector. Neurosurgeons serving in the military have provided a pragmatic template for global neurosurgeons to emulate in humanitarian disaster responses. In this paper, we explore how wars and MCD have influenced innovations of growing interest in the resource-limited settings of global neurosurgery. METHODS: We performed a narrative review of the literature examining the influence of wars and MCD on contemporary global neurosurgery practices. RESULTS: Wartime innovations that influenced global neurosurgery include the development of triage systems and modernization with airlifts, the implementation of ambulance corps, early operation on cranial injuries in hospital camps near the battlefield, the use of combat body armor, and the rise of damage control neurosurgery. In addition to promoting task-shifting and task-sharing, workforce shortages during wars and disasters contributed to the establishment of the physician assistant/physician associate profession in the USA. Low- and middle-income countries (LMICs) face similar challenges in developing trauma systems and obtaining advanced technology, including neurosurgical equipment like battery-powered computed tomography scanners. These challenges-ubiquitous in low-resource settings-have underpinned innovations in triage and wound care, rapid evacuation to tertiary care centers, and minimizing infection risk. CONCLUSION: War and MCDs have catalyzed significant advancements in neurosurgical care both in the pre-hospital and inpatient settings. Most of these innovations originated in the military and subsequently spread to the civilian sector as military neurosurgeons and reservist civilian neurosurgeons returned from the battlefront or other low-resource locations. Military neurosurgeons have utilized their experience in low-resource settings to make volunteer global neurosurgery efforts in LMICs successful. LMICs have, by necessity, responded to challenges arising from resource shortages by developing innovative, context-specific care paradigms and technologies.

Comparing Outcomes for Emergent Cranial Neurosurgical Procedures Performed "During Hours" and "After Hours".

OBJECTIVE: Surgery performed at night and on weekends is thought to be associated with increased complications. However, the impact of time of day on outcomes has not been studied within cranial neurosurgery. We aim to determine if there are differences in outcomes for cranial neurosurgery performed after hours (AH) compared with during hours (DH). METHODS: We performed a single-center retrospective study of cranial neurosurgery patients who underwent emergent surgery from January 2015 through December 2019. Surgery was considered DH if the incision occurred between 8 am and 5 pm Monday through Friday. We assessed outcome measures for differences between operations performed DH or AH. RESULTS: Three-hundred and ninety-three patients (114 DH, 279 AH) underwent surgery. There was a lower rate of return to the operating room within 30 days for AH (8.6%) compared with DH (14.0%), P = 0.03, on multivariate analysis. There were no significant differences in length of operation, estimated blood loss, improvement in Glasgow Coma Scale, intensive care unit and total hospital length of stay, 30-day readmission, 30-day mortality, and in-hospital mortality for cases performed DH compared with AH. Further subgroup analyses were performed for patients who underwent immediate surgery for subdural hematomas, with no differences noted in outcomes on multivariate analysis. CONCLUSIONS: This study suggests that operating AH does not appear to negatively impact outcomes when compared with operating DH, in cases of cranial neurosurgical emergencies. Further study assessing the impact on elective neurosurgical cases is required.

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.

Augmented Reality in Neurosurgery: A New Paradigm for Training.

Augmented reality (AR) involves the overlay of computer-generated images onto the user's real-world visual field to modify or enhance the user's visual experience. With respect to neurosurgery, AR integrates preoperative and intraoperative imaging data to create an enriched surgical experience that has been shown to improve surgical planning, refine neuronavigation, and reduce operation time. In addition, AR has the potential to serve as a valuable training tool for neurosurgeons in a way that minimizes patient risk while facilitating comprehensive training opportunities. The increased use of AR in neurosurgery over the past decade has led to innovative research endeavors aiming to develop novel, more efficient AR systems while also improving and refining present ones. In this review, we provide a concise overview of AR, detail current and emerging uses of AR in neurosurgery and neurosurgical training, discuss the limitations of AR, and provide future research directions. Following the guidelines of the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA), 386 articles were initially identified. Two independent reviewers (GH and AC) assessed article eligibility for inclusion, and 31 articles are included in this review. The literature search included original (retrospective and prospective) articles and case reports published in English between 2013 and 2023. AR assistance has shown promise within neuro-oncology, spinal neurosurgery, neurovascular surgery, skull-base surgery, and pediatric neurosurgery. Intraoperative use of AR was found to primarily assist with surgical planning and neuronavigation. Similarly, AR assistance for neurosurgical training focused primarily on surgical planning and neuronavigation. However, studies included in this review utilize small sample sizes and remain largely in the preliminary phase. Thus, future research must be conducted to further refine AR systems before widespread intraoperative and educational use.

Application of Glasses-Free Augmented Reality Localization in Neurosurgery.

OBJECTIVE: The accurate localization of intracranial lesions is critical in neurosurgery. Most surgeons locate the vast majority of neurosurgical sites through skull surface markers, combined with neuroimaging examination and marking lines. This project's primary purpose was to develop an augmented reality (AR) technology or tool that can be used for surgical positioning using the naked eye. METHODS: Brain models were predesigned with intracranial lesions using computerized tomography scan, and Digital Imaging and Communications in Medicine data were segmented and modeled by 3D slicer software. The processed data were imported into a smartphone 3D viewing software application (Persp 3D) and were used by a Remebot surgical robot. The localization of intracranial lesions was performed, and the AR localization error was calculated compared with standard robot localization. RESULTS: After mastering the AR localization registration method, surgeons achieved an average localization error of 1.39 ± 0.82 mm. CONCLUSIONS: The error of AR positioning technology in surgical simulation tests based on brain modeling was millimeter level, which has verified the feasibility of clinical application. More efficient registration remains a need that should be addressed.

Topic Reviews in Neurosurgical Journals: An Analysis of Publication Trends.

BACKGROUND: Topic review articles have become increasingly popular, even as the neurosurgical community looks to peer-reviewed journals as a source of discovery in basic and clinical science. In this study we quantify the prevalence of topic review articles in top neurosurgery journals. METHODS: The top 20 neurosurgery journals were defined by Google Scholar metrics. The PubMed database quantified the number of topic reviews compared with the total number of articles published; data were analyzed for trends between 1945 and 2022. RESULTS: All 20 journals have published topic reviews since the start of records on PubMed. Total publications have increased from <500 before 1980 to >8000 in 2022. Topic reviews have increased from <1% before 1980, to 2% by 2000, and to 3%-4% since 2010. The linear trend line equation for the total percentage of reviews in all journals shows a small increase in topic reviews per year. Three journals decreased review publication whereas 4 have reached prevalence >10%. The prevalence of topic reviews increased significantly from the first (2.13) to the last (4.76) year of publication (P = 0.003). CONCLUSIONS: The increasing prevalence of topic reviews is seen in most neurosurgery journals, reflecting supply and demand. Although there are benefits to these articles, they do not contribute novel data. Actions such as defining and labeling this publication type in journals and databases will improve the transparency of research methods. Academic neurosurgeons should further expand their knowledge and not become focused only on introspection into and review of neurosurgical understanding and practice.

Technical evolution of pediatric neurosurgery: the evolution of intraoperative imaging.

Imaging has always been fundamental to neurosurgery, and its evolution over the last century has made a dramatic transformation in the ability of neurosurgeons to define pathology and preserve normal tissue during their operations. In the mid-70 s, the development of computerized cross-sectional imaging with CT scan and subsequently MRI have revolutionized the practice of neurosurgery. Later, further advances in computer technology and medical engineering have allowed the combination of many modalities to bring them into the operating theater. This evolution has allowed real-time intraoperative imaging, in the hope of helping neurosurgeons achieve accuracy, maximal safe resection, and the implementation of minimally invasive techniques in brain and spine pathologies. Augmented reality and robotic technologies are also being applied as useful intra-operative techniques that will improve surgical planning and outcomes in the future. In this article, we will review imaging modalities and provide our institutional perspective on how we have integrated them into our practice.

From white to blue light: evolution of endoscope-assisted intracranial tumor neurosurgery and expansion to intraaxial tumors.

OBJECTIVE: Intraoperative use of the endoscope to assist in visualization of intracranial tumor pathology has expanded with increasing surgeon experience and improved instrumentation. The authors aimed to study how advancements in endoscopic technology have affected the evolution of endoscope use, with particular focus on blue light-filter modification allowing for discrimination of fluorescent tumor tissue following 5-ALA administration. METHODS: A retrospective analysis of patients undergoing craniotomy for tumor resection at a single institution between February 2012 and July 2021 was performed. Patients were included if the endoscope was used for diagnostic tumor cavity inspection or therapeutic assistance with tumor resection following standard craniotomy and microsurgical tumor resection, with emphasis on those cases in which blue light endoscopy was used. Medical records were queried for patient demographics, operative reports describing the use of the endoscope and extent of resection, associations with tumor pathology, and postoperative outcomes. Preoperative and postoperative MR images were reviewed for radiographic extent of resection. RESULTS: A total of 52 patients who underwent endoscope-assisted craniotomy for tumor were included. Thirty patients (57.7%) were men and the average age was 52.6 ± 16.1 years. Standard white light endoscopes were used for assistance with tumor resection in 28 cases (53.8%) for tumors primarily located in the ventricular system, parasellar region, and cerebellopontine angle. A blue light endoscope for detection of 5-ALA fluorescence was introduced into our practice in 2014 and subsequently used for assistance with tumor resection in 24 cases (46.2%) (intraaxial: n = 22, extraaxial: n = 2). Beyond the use of the surgical microscope as the primary visualization source, the blue light endoscope was used to directly perform additional tumor resection in 19/21 cases as a result of improved fluorescence detection as compared to the surgical microscope. No complications were associated with the use of the endoscope or with additional resection performed under white or blue light visualization. CONCLUSIONS: Endoscopic assistance to visualize intracranial tumors had previously been limited to white light, assisting mostly in the visualization of extraaxial tumors confined to intraventricular and cisternal compartments. Blue light-equipped endoscopes provide improved versatility and visualization of 5-ALA fluorescing tissue beyond the capability of the surgical microscope, thereby expanding its use into the realm of intraaxial tumor resections.

[Robotics and computer-assisted procedures in cranial neurosurgery]. / Robotik und computergestützte Verfahren in der kranialen Neurochirurgie.

BACKGROUND: The medical technical innovations over the last decade have made operations in the highly sensitive regions of the brain much safer. OBJECTIVE: Presentation of how far computer assistance and robotics have become incorporated into clinical neurosurgery. MATERIAL AND METHOD: Evaluation of the scientific literature and analysis of the certification status of the corresponding medical devices. RESULTS: The rapid development of computer technology and the switch to digital imaging has led to the widespread introduction of neurosurgical planning software and intraoperative neuronavigation. In the field of robotics, the penetration into clinical neurosurgery is currently still largely limited to the automatic setting of trajectories. CONCLUSION: The digitalization of imaging has fundamentally transformed neurosurgery. In the field of cranial neurosurgery, computer-assisted procedures can now be distinguished from noncomputer-assisted procedures only in a handful of cases. In the coming years important innovations for the clinical implementation can be expected in the field of robotics.

Potential benefits of intraoperative ultrasound in neurosurgery.

Computed tomography and magnetic resonance imaging are the most popular diagnostic tools to visualize intracranial pathology and help surgical planning in the neurosurgical practice. However, these preoperative techniques need to be supplemented with intraoperative methods, if the lesion size may increase or preoperative anatomy may change after the primary imaging due to rapid progression of the underlying intracranial disease. In such situations intraoperative ultrasound could be a valuable technique in real-time imaging of intracranial pathologic processes, real-time control of surgical procedure, assistance in drain or catheter placement, and real-time assessment of residual tumor or hematoma volume during neurosurgical interventions.

Sodium fluorescein in pediatric neurosurgery: a systematic review with technical considerations and future perspectives.

BACKGROUND: Sodium fluorescein (SF) is routinely used in several centers as a valid intraoperative adjunct in adult oncological neurosurgery. Its use in pediatric neurosurgery is increasing, although its role is not yet well-defined in children. We reviewed the current literature in order to evaluate the use of SF in children with CNS and PNS lesions. METHODS: For this systematic review, we searched PubMed, Scopus, and Embase databases, and forward and backward citations for studies published between database inception and July 31st, 2022. We included any article type or congress abstract adding at least a new case, without restrictions of language or publication status, concerning the use of SF in neurosurgical procedures in patients under 18 years of age. We excluded studies concerning purely vascular cases and cerebrospinal fluid leaks. RESULTS: Of 4094 records identified, 19 articles were eligible and included for further analysis. As per July 31st, 2022, at least 119 patients aged from 11 months to 17.9 years underwent surgery with SF. No serious adverse events were reported. A large variety of tumor types was operated, in most cases resected under the specific YELLOW 560 nm filter after a low-dose SF injection (2-5 mg/kg) at the end of anesthesia induction. SF was reported particularly useful in gangliogliomas and pilocytic astrocytomas. DISCUSSION/CONCLUSION: Given its easy-to-use profile, low cost, and safety, SF seems to be a feasible and valid adjunct in the pediatric population when aiming at individuating a biopsy target or maximizing extent of resection, particularly in some tumor types. Further studies are required to strengthen the evidence on its impact on outcomes.

Anestesia multimodal para ressecção de tumor cerebral com monitorização eletroneurofisiológica: relato de caso / Multimodal anesthesia for brain tumor resection with electroneurophysiological monitoring: case report

Introdução: O monitoramento neurofisiológico intraoperatório (MNIO) é uma técnica valiosa, empregada durante procedimentos neurocirúrgicos complexos. Ao monitorar continuamente as vias neurais, o MNIO fornece feedback em tempo real aos cirurgiões durante o procedimento, permitindo tomada de decisões críticas e redução do risco de déficits neurológicos. O papel do anestesiologista na identificação e correção dos fatores de risco modificáveis é fundamental para a prevenção de lesões neurológicas e otimização dos resultados. Sendo assim, a compreensão das limitações do MNIO e das evidências que orientam seu uso é de fundamental importância. Objetivo: Descrever o manejo de uma anestesia multimodal, realizada em conjunto com a equipe de neurofisiologia, para ressecção de um tumor cerebral recidivante e o seu desfecho clinico. Método: Trata-se de relato de caso atendido no Hospital do Servidor Público Municipal de São Paulo. Os dados para realização deste trabalho foram coletados durante a cirurgia, sendo a coleta autorizada pelo paciente por meio da assinatura de termo de consentimento livre e esclarecido. Relato do Caso: Paciente, sexo masculino, 64 anos, ASA II, hipertenso, com história prévia de meningioma atípico, submetido a neurocirurgia e radioterapia em 2021, em uso de anticonvulsivante oral para profilaxia de crises convulsivas. Apresenta lesão tumoral cerebral recidivante em região frontal bilateral. Após a indução anestésica, foi realizada passagem de acesso venoso central em veia jugular interna direita com auxílio de ultrassonografia, monitoração da pressão arterial invasiva após cateterização de artéria radial direita, sondagem vesical de demora, termômetro esofágico, otimização do posicionamento na mesa cirúrgica, índice bispectral e Scalp Block com 20 ml de ropicavaína a 0,375%. Realizou- se manutenção da anestesia com propofol (4-6 mg/kg/h) e remifentanil (0,1 mcg/kg/min) em infusão contínua associado a dexmedetomidina (0,2-0,6 mcg/kg/h) mantendo valores do índice bispectral entre 40-60. As respostas dos potenciais evocados foram obtidas nas extremidades superiores e inferiores durante todo o procedimento pela equipe de neurofisiologia. Durante a manipulação tumoral, foi detectada queda superior a 40% do potencial evocado motor em dimídio corporal esquerdo, e emitido o alerta à equipe cirúrgica. Nenhuma outra intercorrência foi registrada durante o procedimento. Conclusões: Propofol, dexmedetomidina, lidocaína, opioides e anestésicos voláteis potentes de baixa dosagem (menos de 0,5 CAM) associado a técnicas de bloqueios periféricos, fornecem condições compatíveis com monitoramento neurofisiológico intraoperatório. O MNIO contínuo é um complemento indispensável no período perioperatório para pacientes com alto risco de desenvolver complicações neurológicas. Os anestesistas devem fornecer um meio fisiológico e anestésico estável para facilitar a interpretação significativa das mudanças de sinal e precisa orientação cirúrgica. Palavras-chave: Adjuvantes Anestésicos. Potenciais Evocados. Neurocirurgia. Monitorização Neurofisiológica Intraoperatória.

Modular robotic platform for precision neurosurgery with a bio-inspired needle: System overview and first in-vivo deployment.

Over the past 10 years, minimally invasive surgery (MIS) has shown significant benefits compared to conventional surgical techniques, with reduced trauma, shorter hospital stays, and shorter patient recovery times. In neurosurgical MIS procedures, inserting a straight tool (e.g. catheter) is common practice in applications ranging from biopsy and laser ablation, to drug delivery and fluid evacuation. How to handle tissue deformation, target migration and access to deep-seated anatomical structures remain an open challenge, affecting both the preoperative planning phase and eventual surgical intervention. Here, we present the first neurosurgical platform in the literature, able to deliver an implantable steerable needle for a range of diagnostic and therapeutic applications, with a short-term focus on localised drug delivery. This work presents the system's architecture and first in vivo deployment with an optimised surgical workflow designed for pre-clinical trials with the ovine model, which demonstrate appropriate function and safe implantation.

Nursing Education of Lateral Oblique Complications of Neurosurgery under Microscope.

In order to solve the problem of nursing education of lateral oblique complications, a nursing education solution of lateral oblique complications of neurosurgery under the microscope was proposed. The method used subjective evaluation and objective evaluation to systematically evaluate the basic training module. In subjective evaluation, the authenticity score of surgical simulator was 3.65 ± 0.01, the realism score of surgical instruments was 3.81 ± 0.01, the realism score of tactile sense was 3.75 ± 0.01, the operating environment score was 3.60 ± 0.01, and the overall effect score was 3.63 ± 0.01. The difficulty score of the whole training was 3.15 ± 0.01. In the aspect of objective evaluation, the entropy method was used to process the data of training track, training angle, training time, trigger times, success times, failure times, and other indicators of 24 trainers collected, and the experiment verified the nursing education of lateral oblique complications of neurosurgery under the microscope.

Reconstruction of the cranial vault, surgical drainage of brain abscesses, and the treatment of rhinoliquorrhea: the "Luftwaffen Lazarett 6/XVII Bad Ischl," the first neurosurgical department in Austria.

The main purpose of neurosurgery during World War II was the treatment of traumatic brain injury, injuries to the spine, and injuries to peripheral nerves-mostly penetrating injuries caused by bullets or shrapnel. After heavy bombings of Berlin, in 1943 the main neurosurgical hospital was moved to Bad Ischl, a small town in the Austrian countryside. There, Wilhelm Toennis and his successor Dietrich W. Krueger made important observations treating soldiers suffering from traumatic brain injuries. During the war and also in the postwar period, they focused on techniques for the reconstruction of the cranial vault, the treatment of brain abscesses by drainage instead of extirpation, and also the treatment of rhinoliquorrhea due to frontobasal trauma. Their approaches were sometimes contradictory to the standard of care of the times. Nevertheless, many of the principles of the techniques described are still practiced by today's neurosurgeons.

The birth of modern military neurosurgery through the eyes of Harvey Cushing's war memoir From a Surgeon's Journal, 1915-1918.

Dr. Harvey Cushing is considered the father of modern neurological surgery, and his role and efforts in World War I continue to have a lasting effect on today's practice of neurosurgery. During World War I, he embodied the tenets of a neurosurgeon-scientist: he created and implemented novel antiseptic techniques to decrease infection rates after craniotomies, leading him often to be referred to as "originator of brain wound care." His contributions did not come without struggles, however. He faced criticism for numerous military censorship violations, and he developed a severe peripheral neuropathy during the war. However, he continued to stress the importance of patient care and his surgical prowess was evident. In this paper, the authors summarize Cushing's notes published in From a Surgeon's Journal, 1915-1918 and discuss the impact of his experiences on his own practice and the field of neurosurgery.