新型高分辨率、高通道数薄膜电极在人类微脑皮层电图中的术中应用及初步经验。
Intraoperative application and early experience with novel high-resolution, high-channel-count thin-film electrodes for human microelectrocorticography.
机构信息
1Department of Neurological Surgery, Oregon Health & Science University, Portland, Oregon.
2Department of Neurology, Massachusetts General Hospital, Boston, Massachusetts.
出版信息
J Neurosurg. 2023 Sep 29;140(3):665-676. doi: 10.3171/2023.7.JNS23885. Print 2024 Mar 1.
OBJECTIVE
The study objective was to evaluate intraoperative experience with newly developed high-spatial-resolution microelectrode grids composed of poly(3,4-ethylenedioxythiophene) with polystyrene sulfonate (PEDOT:PSS), and those composed of platinum nanorods (PtNRs).
METHODS
A cohort of patients who underwent craniotomy for pathological tissue resection and who had high-spatial-resolution microelectrode grids placed intraoperatively were evaluated. Patient demographic and baseline clinical variables as well as relevant microelectrode grid characteristic data were collected. The primary and secondary outcome measures of interest were successful microelectrode grid utilization with usable resting-state or task-related data, and grid-related adverse intraoperative events and/or grid dysfunction.
RESULTS
Included in the analysis were 89 cases of patients who underwent a craniotomy for resection of neoplasms (n = 58) or epileptogenic tissue (n = 31). These cases accounted for 94 grids: 58 PEDOT:PSS and 36 PtNR grids. Of these 94 grids, 86 were functional and used successfully to obtain cortical recordings from 82 patients. The mean cortical grid recording duration was 15.3 ± 1.15 minutes. Most recordings in patients were obtained during experimental tasks (n = 52, 58.4%), involving language and sensorimotor testing paradigms, or were obtained passively during resting state (n = 32, 36.0%). There were no intraoperative adverse events related to grid placement. However, there were instances of PtNR grid dysfunction (n = 8) related to damage incurred by suboptimal preoperative sterilization (n = 7) and improper handling (n = 1); intraoperative recordings were not performed. Vaporized peroxide sterilization was the most optimal sterilization method for PtNR grids, providing a significantly greater number of usable channels poststerilization than did steam-based sterilization techniques (median 905.0 [IQR 650.8-935.5] vs 356.0 [IQR 18.0-597.8], p = 0.0031).
CONCLUSIONS
High-spatial-resolution microelectrode grids can be readily incorporated into appropriately selected craniotomy cases for clinical and research purposes. Grids are reliable when preoperative handling and sterilization considerations are accounted for. Future investigations should compare the diagnostic utility of these high-resolution grids to commercially available counterparts and assess whether diagnostic discrepancies relate to clinical outcomes.
目的
本研究旨在评估由聚(3,4-亚乙基二氧噻吩)与聚苯乙烯磺酸盐(PEDOT:PSS)组成的新型高空间分辨率微电极网格以及由铂纳米棒(PtNRs)组成的微电极网格的术中体验。
方法
评估了一组接受开颅手术以切除病理性组织且术中放置高空间分辨率微电极网格的患者。收集了患者的人口统计学和基线临床变量以及相关微电极网格特征数据。主要和次要结局指标是成功使用微电极网格获得可用的静息状态或任务相关数据,以及与网格相关的术中不良事件和/或网格功能障碍。
结果
分析纳入了 89 例接受开颅手术切除肿瘤(n=58)或致痫性组织(n=31)的患者。这些病例共涉及 94 个网格:58 个 PEDOT:PSS 和 36 个 PtNR 网格。在这 94 个网格中,86 个功能正常并成功用于从 82 名患者获得皮质记录。皮质网格记录的平均持续时间为 15.3±1.15 分钟。大多数患者的记录是在实验任务期间获得的(n=52,58.4%),涉及语言和感觉运动测试范式,或在静息状态下被动获得(n=32,36.0%)。没有与网格放置相关的术中不良事件。然而,有 8 例 PtNR 网格功能障碍的情况,与术前消毒不理想(n=7)和处理不当(n=1)有关;未进行术中记录。过氧化物蒸汽灭菌是 PtNR 网格最理想的灭菌方法,与基于蒸汽的灭菌技术相比,可显著增加消毒后可用通道的数量(中位数 905.0[IQR 650.8-935.5] vs 356.0[IQR 18.0-597.8],p=0.0031)。
结论
高空间分辨率微电极网格可方便地用于临床和研究目的的适当选择的开颅手术病例。在考虑到术前处理和消毒注意事项时,网格是可靠的。未来的研究应比较这些高分辨率网格与市售同类产品的诊断效用,并评估诊断差异是否与临床结果有关。
Zotero 插件