三叉神经痛微血管减压术的虚拟现实规划:技术与临床效果。

IF 0.9 4区 医学 Q4 CLINICAL NEUROLOGY
Oliver Dietmar Fabrig, Carlo Serra, Ralf Alfons Kockro
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引用次数: 0

摘要

背景:在 75% 的病例中,神经血管冲突(NVC)被认为是三叉神经痛(TN)的病因,如果是这样,微血管减压术(MVD)可明显缓解疼痛。可靠的三叉神经痛术前检测对于临床决策和手术规划至关重要,因此详细的神经放射成像是重要的组成部分。我们基于磁共振成像(MRI),包括磁共振血管造影(MRA)和磁共振静脉造影(MRV)序列,介绍了在虚拟现实(VR)环境中制定 MVD 手术术前计划的经验和临床结果:我们在一项单一外科医生(R.A. Kockro)的回顾性研究中,分析了接受 TN 治疗的 30 例连续 MVD 患者的数据。在这 30 例病例中,有 26 例被纳入研究。术前,MRA/MRV 和 MRI 系列在 VR 环境中进行融合和三维重建。所有重要结构,如三叉神经、小脑角的动脉和静脉、脑干、邻近的颅神经以及横窦和乙状窦都被分割开来。对 NVC 进行了可视化,并模拟了以不同轨迹逆行进入 NVC 的方法。然后将术中发现与模拟数据进行比较。通过详细审查医疗报告评估临床结果,并对所有患者(20/26)进行随访:结果:VR 计划与临床工作流程结合得很好,成像处理时间为 30 至 40 分钟。有 13 名患者发生了单纯动脉冲突,4 名患者发生了静脉冲突,9 名患者发生了动静脉联合冲突。通过术前模拟,可以精确观察到侵犯血管和三叉神经以及周围结构的解剖关系。针对每个病例,都模拟了沿着最合适的手术走廊进行手术的方法,并规划了减压的具体步骤。在所有病例中,术中观察到的小脑视神经和小脑视角的解剖结构与术前模拟结果一致,因此 MVC 可以按计划进行。随访时,92.3%(24/26)的患者无疼痛感,所有填写问卷的患者都表示愿意再次接受手术(20/20)。手术并发症发生率为零:目前的成像技术可以在术前对 TN 病例的病理解剖空间关系进行详细的可视化。三维交互式 VR 技术可以制定明确的解剖和减压策略,从而实现安全的血管显微手术和良好的临床效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Virtual Reality Planning of Microvascular Decompression in Trigeminal Neuralgia: Technique and Clinical Outcome.

Background:  A neurovascular conflict (NVC) is considered the cause of trigeminal neuralgia (TN) in 75% of cases, and if so, a microvascular decompression (MVD) can lead to significant pain relief. A reliable preoperative detection of NVC is essential for clinical decision-making and surgical planning, making detailed neuroradiologic imaging an important component. We present our experiences and clinical outcomes with preoperative planning of the MVD procedure in a virtual reality (VR) environment, based on magnetic resonance imaging (MRI) including magnetic resonance angiography (MRA) and magnetic resonance venography (MRV) sequences.

Methods:  We analyzed the data of 30 consecutive MVDs in patients treated for TN, in a retrospective single-surgeon (R.A. Kockro) study. Out of the 30 cases, 26 were included. Preoperatively, MRA/MRV and MRI series were fused and three dimensionally reconstructed in a VR environment. All critical structures such as the trigeminal nerve as well as the arteries and veins of the cerebellopontine angle, the brainstem, the neighboring cranial nerves, and the transverse and sigmoid sinus were segmented. The NVC was visualized and a simulation of a retrosigmoid approach, with varying trajectories, to the NVC was performed. The intraoperative findings were then compared with the data of the simulation. The clinical outcome was assessed by a detailed review of medical reports, and follow-up-interviews were conducted in all available patients (20/26).

Results:  The VR planning was well integrated into the clinical workflow, and imaging processing time was 30 to 40 minutes. There was a sole arterial conflict in 13 patients, a venous conflict in 4 patients, and a combined arteriovenous conflict in 9 patients. The preoperative simulations provided a precise visualization of the anatomical relationships of the offending vessels and the trigeminal nerves as well as the surrounding structures. For each case, the approach along the most suitable surgical corridor was simulated and the exact steps of the decompression were planned. The NVC and the anatomy of the cerebellopontine angle as seen intraoperatively matched with the preoperative simulations in all cases and the MVC could be performed as planned. At follow-up, 92.3% (24/26) of patients were pain free and all the patients who completed the questionnaire would undergo the surgery again (20/20). The surgical complication rate was zero.

Conclusion:  Current imaging technology allows detailed preoperative visualization of the pathoanatomical spatial relationships in cases of TN. 3D interactive VR technology allows establishing a clear dissection and decompression strategy, resulting in safe vascular microsurgery and excellent clinical results.

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来源期刊
CiteScore
2.30
自引率
0.00%
发文量
90
期刊介绍: The Journal of Neurological Surgery Part A: Central European Neurosurgery (JNLS A) is a major publication from the world''s leading publisher in neurosurgery. JNLS A currently serves as the official organ of several national neurosurgery societies. JNLS A is a peer-reviewed journal publishing original research, review articles, and technical notes covering all aspects of neurological surgery. The focus of JNLS A includes microsurgery as well as the latest minimally invasive techniques, such as stereotactic-guided surgery, endoscopy, and endovascular procedures. JNLS A covers purely neurosurgical topics.
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