Characterizing Depth Electrode Coverage in Stereoelectroencephalography on Seizure Onset Zone Localization and Seizure Outcomes.

IF 1.9 4区医学 Q3 NEUROIMAGING

Stereotactic and Functional Neurosurgery Pub Date : 2024-01-01 Epub Date: 2024-10-15 DOI:10.1159/000541098

Rohan Jha, Aaron E L Warren, Noah L A Nawabi, Pariya Salami, Angelique C Paulk, Sydney S Cash, John D Rolston

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引用次数: 0

Abstract

Introduction: The number of intracranial depth electrodes implanted in stereoelectroencephalography (SEEG) investigations is primarily driven by the preimplantation hypothesis about SOZ location. Targeting is not standardized and highly variable between centers. Whether some of these electrodes may prove redundant, or target low-yield areas too frequently, is uncertain.

Methods: We identified a retrospective multi-institutional cohort implanted with depth electrodes for iEEG monitoring between 2003 and 2022. We collected preoperative clinical features and iEEG investigation parameters, including the number of depth electrodes and contacts implanted. We built a propensity-matched cohort with respect to these covariates and evaluated outcomes, which included (1) the likelihood of SOZ localization, (2) complications, and (3) seizure-free outcomes as a function of electrode contact coverage. In addition, we aimed to identify brain regions commonly explored in conjunction with each other and identify the likelihood of a region being implicated in initial electroclinical seizure onset.

Results: One hundred and sixty-seven patients were followed for a median of 3.8 (range 2, 18) years after SEEG. Propensity-matched cohorts demonstrated that a higher number of implanted contacts were associated with a greater likelihood of proceeding to treatment, but were not associated with SOZ localization, seizure freedom (Engel I), favorable seizure outcomes (Engel I/II), or complications, per Bayes factor analysis. Lateral orbitofrontal, supramarginal, posterior cingulate, inferior parietal, and inferior temporal areas were least likely to be implicated in initial electrographic onset, whereas hippocampus, caudal middle frontal, pericalcarine, and parahippocampal areas were most likely when controlling for electrode coverage.

Conclusions: SEEG effectively localizes the SOZ in both lesional and non-lesional etiologies, and clinicians are generally optimizing the electrode coverage for hypothetical SOZ localization, leading to further therapeutic surgeries that may confer seizure freedom. Nevertheless, several areas are possibly being explored despite low likelihood (<2.5%) of participation within the SOZ.

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立体脑电图深度电极覆盖对癫痫发作起始区定位和癫痫发作结果的影响。

导言：立体脑电图（SEEG）检查中植入颅内深度电极的数量主要取决于植入前对 SOZ 位置的假设。定位并不是标准化的，而且不同中心的定位差异很大。这些电极中是否有一些可能被证明是多余的，或者是否过于频繁地瞄准低收益区域，目前还不确定：我们确定了 2003 年至 2022 年间植入深度电极进行 iEEG 监测的多机构回顾性队列。我们收集了术前临床特征和 iEEG 检查参数，包括植入深度电极的数量和触点。我们根据这些协变量建立了倾向匹配队列，并评估了结果，其中包括：(1) SOZ 定位的可能性；(2) 并发症；(3) 作为电极触点覆盖率函数的无癫痫发作结果。此外，我们还旨在确定共同探讨的脑区，并确定某一区域与最初的电临床癫痫发作有牵连的可能性：167 名患者在 SEEG 后接受了中位 3.8 年（2-18 年不等）的随访。倾向匹配队列显示，植入触点数量越多，接受治疗的可能性越大，但根据贝叶斯因子分析，植入触点数量与 SOZ 定位、癫痫发作自由度（恩格尔 I）、良好的癫痫发作结果（恩格尔 I/II）或并发症无关。眶额叶外侧、边缘上部、扣带回后部、顶叶下部和颞叶下部区域最不可能与最初的电图发病有关，而海马、额叶尾中部、心周和海马旁区域最可能与电极覆盖范围有关：SEEG能有效定位病变和非病变病因中的SOZ，临床医生通常会优化电极覆盖范围以进行假定的SOZ定位，从而进一步进行治疗性手术，以获得癫痫发作自由。不过，尽管参与 SOZ 的可能性较低（2.5%），但仍有几个领域可能正在探索之中。

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

Stereotactic and Functional Neurosurgery 医学-神经成像

CiteScore

3.80

自引率

0.00%

发文量

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.