分阶段深部脑刺激治疗运动障碍时的大脑偏移。

IF 1.9 4区 医学 Q3 NEUROIMAGING
Stereotactic and Functional Neurosurgery Pub Date : 2024-01-01 Epub Date: 2024-01-29 DOI:10.1159/000535197
Keanu Chee, Lisa Hirt, Madelyn Mendlen, Jannika Machnik, Ashkaun Razmara, Eric Bayman, John A Thompson, Daniel R Kramer
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引用次数: 0

摘要

导言:脑深部刺激(DBS)是一种常规神经外科手术,用于治疗各种运动障碍,包括帕金森病(PD)、本质性震颤(ET)和肌张力障碍。治疗效果取决于将导联线准确置入脑深部靶点的立体定向。然而,在 DBS 导联置入过程中,气脑病导致的脑偏移会带来不可预测的误差。本研究旨在确定颅内积气是否与接受分期 DBS 手术患者的脑偏移有关:我们回顾性评估了 46 名接受分期 DBS 手术治疗 PD、ET 和肌张力障碍的患者。由于我院 DBS 手术的分期性质,第一个电极放置位置被用作目标位置移动的具体靶标。我们收集了第一次电极植入后的术后计算机断层扫描(CT)图像,以及第二次电极植入后的术前和术后 CT 图像。在立体定向软件(BrainLab)中对图像进行分析;手动分割颅内空气,测量电极在 x、y 和 z 平面上的移位,以及每组合并 CT 扫描图像上的欧几里得距离。采用皮尔逊相关分析确定颅内空气与脑偏移之间的关系,采用学生 t 检验比较有和没有颅内空气影像学证据的患者的平均值:结果:36 名患者在第一次电极植入后出现气胸,35 名患者在第二次电极植入后出现气胸。第一次电极植入后的颅内积气(4.49 ± 6.05 立方厘米)与大脑沿 y 轴的偏移(0.04 ± 0.35 毫米;r (34) = 0.36;p = 0.03)以及欧氏偏差距离(0.57 ± 0.33 毫米;r (34) = 0.33;p = 0.05)显著相关,表明同侧发生了统计学意义上的显著偏移。然而,在第二次电极植入后,颅内空气与大脑偏移之间没有明显的相关性,这表明对侧偏移很小。此外,在两次电极植入手术后,有和没有颅内空气影像学证据的患者在脑转移方面没有明显差异:结论:尽管有影像学证据显示气胸患者的脑容量高达 22.0 立方厘米,但与没有气胸的患者相比,脑移位没有明显差异。此外,无论是否出现气胸,脑移位的平均幅度均为1.0毫米,这表明颅内积气可能不会在我们的患者中产生临床上明显的脑移位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Brain Shift during Staged Deep Brain Stimulation for Movement Disorders.

Introduction: Deep brain stimulation (DBS) is a routine neurosurgical procedure utilized to treat various movement disorders including Parkinson's disease (PD), essential tremor (ET), and dystonia. Treatment efficacy is dependent on stereotactic accuracy of lead placement into the deep brain target of interest. However, brain shift attributed to pneumocephalus can introduce unpredictable inaccuracies during DBS lead placement. This study aimed to determine whether intracranial air is associated with brain shift in patients undergoing staged DBS surgery.

Methods: We retrospectively evaluated 46 patients who underwent staged DBS surgery for PD, ET, and dystonia. Due to the staged nature of DBS surgery at our institution, the first electrode placement is used as a concrete fiducial marker for movement in the target location. Postoperative computed tomography (CT) images after the first electrode implantation, as well as preoperative, and postoperative CT images after the second electrode implantation were collected. Images were analyzed in stereotactic targeting software (BrainLab); intracranial air was manually segmented, and electrode shift was measured in the x, y, and z plane, as well as a Euclidian distance on each set of merged CT scans. A Pearson correlation analysis was used to determine the relationship between intracranial air and brain shift, and student's t test was used to compare means between patients with and without radiographic evidence of intracranial air.

Results: Thirty-six patients had pneumocephalus after the first electrode implantation, while 35 had pneumocephalus after the second electrode implantation. Accumulation of intracranial air following the first electrode implantation (4.49 ± 6.05 cm3) was significantly correlated with brain shift along the y axis (0.04 ± 0.35 mm; r (34) = 0.36; p = 0.03), as well as the Euclidean distance of deviation (0.57 ± 0.33 mm; r (34) = 0.33; p = 0.05) indicating statistically significant shift on the ipsilateral side. However, there was no significant correlation between intracranial air and brain shift following the second electrode implantation, suggesting contralateral shift is minimal. Furthermore, there was no significant difference in brain shift between patients with and without radiographic evidence of intracranial air following both electrode implantation surgeries.

Conclusion: Despite observing volumes as high as 22.0 cm3 in patients with radiographic evidence of pneumocephalus, there was no significant difference in brain shift when compared to patients without pneumocephalus. Furthermore, the mean magnitude of brain shift was <1.0 mm regardless of whether pneumocephalus was presenting, suggesting that intracranial air accumulation may not produce clinical significant brain shift in our patients.

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来源期刊
CiteScore
3.80
自引率
0.00%
发文量
33
审稿时长
3 months
期刊介绍: ''Stereotactic and Functional Neurosurgery'' provides a single source for the reader to keep abreast of developments in the most rapidly advancing subspecialty within neurosurgery. Technological advances in computer-assisted surgery, robotics, imaging and neurophysiology are being applied to clinical problems with ever-increasing rapidity in stereotaxis more than any other field, providing opportunities for new approaches to surgical and radiotherapeutic management of diseases of the brain, spinal cord, and spine. Issues feature advances in the use of deep-brain stimulation, imaging-guided techniques in stereotactic biopsy and craniotomy, stereotactic radiosurgery, and stereotactically implanted and guided radiotherapeutics and biologicals in the treatment of functional and movement disorders, brain tumors, and other diseases of the brain. Background information from basic science laboratories related to such clinical advances provides the reader with an overall perspective of this field. Proceedings and abstracts from many of the key international meetings furnish an overview of this specialty available nowhere else. ''Stereotactic and Functional Neurosurgery'' meets the information needs of both investigators and clinicians in this rapidly advancing field.
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