Microneurosurgical Training on Simulators: The Zurich Microsurgery Lab Experience [0.03%]
模拟器上的微神经外科培训:苏黎世微外科实验室的经验
Elisa Colombo,Lara Höbner,Martina Sebök et al.
Elisa Colombo et al.
Training microsurgical and neurosurgical techniques by using multimodal simulators in the lab is a fundamental component of neurosurgical residency nowadays. The authors of this chapter describe a training curriculum for residents in neuros...
Educational Impact of an Annotation System Integrated with an Exoscope for Cerebral Aneurysm Surgery: Case Description [0.03%]
颅内瘤手术中基于电子显微镜的注解系统教学效果观察:病例报告
Yoji Tanaka,Motoki Inaji,Daisu Abe et al.
Yoji Tanaka et al.
Purpose: The three-dimensional (3D) exoscope has been reported to have better image quality, ergonomics, and educational outcomes than a microscope. However, whether the exoscope can improve communication between the main...
Tristan van Doormaal,Elisa Colombo,Tim Fick et al.
Tristan van Doormaal et al.
Background: The increasing adoption of artificial intelligence (AI) and augmented reality (AR) within vascular neurosurgery has become a prominent trend. The primary challenge before us is seamlessly integrating these adv...
Experiences with and Practical Implications of Using a Hybrid Operating Room [0.03%]
杂交手术室的使用体验及实用意义
Matthias Gmeiner,Vanessa Mazanec,Michael Sonnberger et al.
Matthias Gmeiner et al.
PurposeThe purpose of this chapter is to present our initial results of the use of a hybrid operating room (OR) in cerebrovascular procedures.MethodsIn this retrospective study, 152 patients who suffered from cerebrovascular pathology and w...
Hiroki Hongo,Satoru Miyawaki,Nobuhito Saito
Hiroki Hongo
Cerebral cavernous malformations (CCMs) are vascular anomalies affecting the central nervous system in up to 0.5% of the population. These lesions are characterised by thin-walled, dilated blood vessels that are susceptible to haemorrhage. ...
Novel Hemodynamic Parameters for Cerebral Ischemia in Patients with Occlusive Cerebrovascular Disease Using Dual ASL Perfusion Imaging [0.03%]
双重ASL灌注成像在动脉狭窄患者缺血半暗带的的应用研究
Jyoji Nakagawara
Jyoji Nakagawara
Perfusion MRI via arterial spin labeling (ASL) could not precisely estimate cerebral ischemia severity in patients with occlusive cerebrovascular disease (CVD), because the delayed arrival of arterial blood spins (AB spins) in the affected ...
ADC Threshold Indicating the Ischemic Region for Predicting Efficacy in Thrombectomy [0.03%]
用于预测取栓疗效的缺血半暗带标志物ADC阈值研究
Hideyuki Ishihara,Fumiaki Oka,Takuma Nishimoto et al.
Hideyuki Ishihara et al.
Purpose: The effectiveness of endovascular thrombectomy (EVT) has been proven in patients with large cerebral infarction. However, the size of the ischemic region before treatment is a significant factor in the outcome, a...
New Classification of the Degree of Cerebrovascular Insufficiency in Patients with Moyamoya Disease Measured According to ASL-MRI Perfusion [0.03%]
基于ASL-MRI灌注的烟雾病脑血管不足程度的新分类
Anna A Shulgina,Vasily A Lukshin,Anton A Korshunov et al.
Anna A Shulgina et al.
Introduction: We aimed to classify different degrees of cerebrovascular insufficiency (CVI) in patients with moyamoya disease (MMD) by measuring cerebral blood flow (CBF) and distinguishing arterial transit artifacts (ATA...
Giuseppe Esposito,Martina Sebök,Jorn Fierstra et al.
Giuseppe Esposito et al.
Flow-augmentation bypass aims to enhance blood flow to hypoperfused brain regions in patients with cerebrovascular steno-occlusive diseases. This surgical procedure is indicated for ischemic and hemorrhagic moyamoya vasculopathy and for sel...
Comparison of Exoscopic and Microscopic Superficial Temporal Artery to Middle Cerebral Artery Bypass [0.03%]
显微镜下颞浅动脉-大脑中动脉吻合与内镜下颞浅动脉-大脑中动脉吻合的比较研究
Takuma Maeda,Hidetoshi Ooigawa,Koki Onodera et al.
Takuma Maeda et al.
Purpose: Exoscopes have been used as a reliable surgical tool in the neurosurgical field. They could improve surgical field visibility with 4K three-dimensional (4K-3D) monitors and provide alleviation for the physical st...
Comparative Study
Acta neurochirurgica. Supplement. 2025:136:105-112. DOI:10.1007/978-3-031-89844-0_13 2025