Department of Neurosurgery - Epilepsy surgery, Evangelisches Klinikum Bethel, Kantensiek 11, 33617 Bielefeld, Germany.
Epilepsy Centre, Krankenhaus Mara, Maraweg 17-21, 33617 Bielefeld, Germany.
Seizure. 2021 Apr;87:81-87. doi: 10.1016/j.seizure.2021.03.004. Epub 2021 Mar 8.
The number of patients requiring depth electrode implantation for invasive video EEG diagnostics increases in most epilepsy centres. Here we report on our institutional experience with frameless robot-assisted stereotactic placement of intracerebral depth electrodes using the Neuromate® stereotactic robot-system.
We identified all patients who had undergone robot-assisted stereotactic placement of intracerebral depth electrodes for invasive extra-operative epilepsy monitoring between September 2013 and March 2020. We studied technical (placement) and diagnostic accuracy of the robot-assisted procedure, associated surgical complications and procedural time requirements.
We evaluated a total of 464 depth electrodes implanted in 74 patients (mean 6 per patient, range 1-12). There were 27 children and 47 adults (age range: 3.6-64.6 yrs.). The mean entry and target point errors were 1.82±1.15 and 1.98±1.05 mm. Target and entry point errors were significantly higher in paediatric vs. adult patients and for electrodes targeting the temporo-mesial region. There were no clinically relevant haemorrhages and no infectious complications. Mean time for the placement of one electrode was 37±14 min and surgery time per electrode decreased with the number of electrodes placed. 55 patients (74.3%) underwent definitive surgical treatment. 36/51 (70.1%) patients followed for >12 months or until seizure recurrence became seizure-free (ILAE I).
Frameless robot-guided stereotactic placement of depth electrodes with the Neuromate® stereotactic robot-system is safe and feasible even in very young children, with good in vivo accuracy and high diagnostic precision. The surgical workflow is time-efficient and further improves with increasing numbers of implanted electrodes.
在大多数癫痫中心,需要进行深度电极植入以进行侵袭性视频脑电图诊断的患者数量增加。在此,我们报告了使用 Neuromate®立体定向机器人系统进行无框架机器人辅助立体定向脑内深度电极放置的机构经验。
我们确定了 2013 年 9 月至 2020 年 3 月期间所有因侵袭性手术外癫痫监测而行机器人辅助立体定向脑内深度电极植入的患者。我们研究了机器人辅助手术的技术(放置)和诊断准确性、相关手术并发症和程序时间要求。
我们评估了总共 74 名患者(27 名儿童和 47 名成人,年龄范围为 3.6-64.6 岁)中的 464 个深度电极植入。每位患者平均植入 6 个电极(范围为 1-12 个)。入口点和目标点的平均误差为 1.82±1.15 和 1.98±1.05 毫米。儿科患者的目标点和入口点误差明显高于成人患者,且对于颞叶内侧电极的目标点误差更高。没有临床相关的出血和感染并发症。每个电极的放置时间平均为 37±14 分钟,每个电极的手术时间随电极放置数量的增加而减少。55 名患者(74.3%)接受了确定性手术治疗。51 名患者中有 36 名(70.1%)在随访 12 个月或以上或直至癫痫复发无癫痫发作(ILAE I)。
使用 Neuromate®立体定向机器人系统进行无框架机器人引导的立体定向深度电极放置是安全可行的,即使是在非常年幼的儿童中,具有良好的体内准确性和高诊断精度。手术流程高效,随着植入电极数量的增加,进一步提高了效率。
