Role of mixed reality in the workflow of complex neurooncological surgeries: a case analysis in thalamic surgery

IF 1.9 3区医学 Q3 CLINICAL NEUROLOGY

Acta Neurochirurgica Pub Date : 2025-09-02 DOI:10.1007/s00701-025-06657-7

Luca Zanuttini, Elisa Colombo, Grazia Menna, Victor E. Staartjes, Tristan van Doormaal, Niklaus Krayenbühl, Luca Regli, Carlo Serra

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引用次数: 0

Abstract

Background

Microsurgical resection of thalamic tumors requires precise anatomical knowledge and meticulous preoperative planning. Given the complexity of thalamic surgery, selecting an optimal surgical approach demands an accurate three-dimensional understanding of relevant structures. Advanced imaging post-processing, including three-dimensional (3D) model construction, can aid surgical planning and mental rehearsal of the procedure. The integration of Mixed Reality (MxR) with interactive holograms may further enhance anatomical clarity, improve risk assessment, and facilitate safer and more extensive tumor resection.

Methods

This retrospective study analyzed patients who underwent thalamic tumor resection with holographic surgical planning between 2022 and 2024. Key anatomical structures, particularly those delimiting the four “free thalamic surfaces”, in contact with cerebrospinal fluid spaces, were segmented using post-processing software (Lumi and 3D Slicer) based on volumetric MRI sequences. The resulting patient-specific holograms were utilized preoperatively to simulate and select the optimal surgical approach and intraoperatively to verify its suitability. Demographic, clinical, radiological, and perioperative data were collected.

Results

Ten surgical procedures were performed in nine patients, including seven neuroepithelial tumors and two metastases. All critical structures were successfully segmented, allowing effective surgical simulation and approach selection (8 Anterior Interhemispheric Transcallosal, 2 Perimedian Supracerebellar Transtentorial approaches). The additional planning time for segmentation averaged 45 min. The mean extent of resection achieved was 94.88% (range: 78.6%–100%). At 3-months postoperative follow-up one out of nine patients experienced a permanent new neurological deficit due to surgery.

Conclusion

Integrating MxR into the preoperative workflow for microsurgical removal of complex thalamic tumors proved to be a valuable tool for surgical planning, risk assessment, and intraoperative guidance. The additional preparation time required for holographic simulation appears justified given the anatomical complexity of thalamic lesions.

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混合现实在复杂神经肿瘤手术流程中的作用：丘脑手术案例分析

背景：丘脑肿瘤的显微外科切除需要精确的解剖学知识和细致的术前计划。鉴于丘脑手术的复杂性，选择最佳手术方法需要对相关结构有准确的三维理解。先进的影像后处理，包括三维（3D）模型构建，可以帮助手术计划和手术的心理排练。混合现实（MxR）与交互式全息图的结合可以进一步提高解剖清晰度，改善风险评估，促进更安全、更广泛的肿瘤切除。方法回顾性分析2022 ~ 2024年间采用全息手术计划行丘脑肿瘤切除术的患者。使用基于体积MRI序列的后处理软件（Lumi和3D Slicer）对与脑脊液空间接触的关键解剖结构，特别是划分四个“自由丘脑表面”的解剖结构进行分割。术前利用所得的患者特异性全息图模拟和选择最佳手术入路，术中验证其适用性。收集了人口学、临床、放射学和围手术期资料。结果9例患者均行手术治疗，其中7例为神经上皮肿瘤，2例为转移性肿瘤。所有关键结构均成功分割，允许有效的手术模拟和入路选择（8个前半球间经胼胝体入路，2个小脑上周经额幕入路）。分割的额外规划时间平均为45分钟。平均切除程度为94.88%（范围：78.6% ~ 100%）。在术后3个月的随访中，九名患者中有一名因手术而出现永久性的新神经功能缺损。结论将MxR纳入复杂丘脑肿瘤显微手术切除的术前工作流程，为手术计划、风险评估和术中指导提供了有价值的工具。考虑到丘脑病变的解剖复杂性，全息模拟所需的额外准备时间似乎是合理的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Neurochirurgica 医学-临床神经学

CiteScore

4.40

自引率

4.20%

发文量

342

审稿时长

1 months

期刊介绍： The journal "Acta Neurochirurgica" publishes only original papers useful both to research and clinical work. Papers should deal with clinical neurosurgery - diagnosis and diagnostic techniques, operative surgery and results, postoperative treatment - or with research work in neuroscience if the underlying questions or the results are of neurosurgical interest. Reports on congresses are given in brief accounts. As official organ of the European Association of Neurosurgical Societies the journal publishes all announcements of the E.A.N.S. and reports on the activities of its member societies. Only contributions written in English will be accepted.