Morishita Takashi, Hilliard Justin D, Okun Michael S, Neal Dan, Nestor Kelsey A, Peace David, Hozouri Alden A, Davidson Mark R, Bova Francis J, Sporrer Justin M, Oyama Genko, Foote Kelly D
Department of Neurosurgery, Fukuoka University, Fukuoka, Japan.
Department of Neurosurgery, University of Florida, Center for Movement Disorders and Neurorestoration, Gainesville, Florida, United States of America.
PLoS One. 2017 Sep 13;12(9):e0183711. doi: 10.1371/journal.pone.0183711. eCollection 2017.
Deep brain stimulation (DBS) is an effective treatment for multiple movement disorders and shows substantial promise for the treatment of some neuropsychiatric and other disorders of brain neurocircuitry. Optimal neuroanatomical lead position is a critical determinant of clinical outcomes in DBS surgery. Lead migration, defined as an unintended post-operative displacement of the DBS lead, has been previously reported. Despite several reports, however, there have been no systematic investigations of this issue. This study aimed to: 1) quantify the incidence of lead migration in a large series of DBS patients, 2) identify potential risk factors contributing to DBS lead migration, and 3) investigate the practical importance of this complication by correlating its occurrence with clinical outcomes.
A database of all DBS procedures performed at UF was queried for patients who had undergone multiple post-operative DBS lead localization imaging studies separated by at least two months. Bilateral DBS implantation has commonly been performed as a staged procedure at UF, with an interval of six or more months between sides. To localize the position of each DBS lead, a head CT is acquired ~4 weeks after lead implantation and fused to the pre-operative targeting MRI. The fused targeting images (MR + stereotactic CT) acquired in preparation for the delayed second side lead implantation provide an opportunity to repeat the localization of the first implanted lead. This paradigm offers an ideal patient population for the study of delayed DBS lead migration because it provides a large cohort of patients with localization of the same implanted DBS lead at two time points. The position of the tip of each implanted DBS lead was measured on both the initial post-operative lead localization CT and the delayed CT. Lead tip displacement, intracranial lead length, and ventricular indices were collected and analyzed. Clinical outcomes were characterized with validated rating scales for all cases, and a comparison was made between outcomes of cases with lead migration versus those where migration of the lead did not occur.
Data from 138 leads in 132 patients with initial and delayed lead localization CT scans were analyzed. The mean distance between initial and delayed DBS lead tip position was 2.2 mm and the mean change in intracranial lead length was 0.45 mm. Significant delayed migration (>3 mm) was observed in 17 leads in 16 patients (12.3% of leads, 12.1% of patients). Factors associated with lead migration were: technical error, repetitive dystonic head movement, and twiddler's syndrome. Outcomes were worse in dystonia patients with lead migration (p = 0.035). In the PD group, worse clinical outcomes trended in cases with lead migration.
Over 10% of DBS leads in this large single center cohort were displaced by greater than 3 mm on delayed measurement, adversely affecting outcomes. Multiple risk factors emerged, including technical error during implantation of the DBS pulse generator and failure of lead fixation at the burr hole site. We hypothesize that a change in surgical technique and a more effective lead fixation device might mitigate this problem.
深部脑刺激(DBS)是治疗多种运动障碍的有效方法,对治疗某些神经精神疾病和其他脑神经网络疾病也显示出巨大潜力。最佳神经解剖学电极位置是DBS手术临床疗效的关键决定因素。电极移位,定义为DBS电极术后意外移位,此前已有报道。然而,尽管有几份报告,但尚未对该问题进行系统研究。本研究旨在:1)量化大量DBS患者中电极移位的发生率;2)确定导致DBS电极移位的潜在危险因素;3)通过将其发生情况与临床结果相关联,研究这一并发症的实际重要性。
查询佛罗里达大学进行的所有DBS手术数据库,寻找接受过至少间隔两个月的多次术后DBS电极定位成像研究的患者。在佛罗里达大学,双侧DBS植入通常分阶段进行,两侧间隔六个月或更长时间。为了定位每个DBS电极的位置,在电极植入后约4周进行头部CT扫描,并与术前靶向MRI融合。为延迟的第二侧电极植入准备时获取的融合靶向图像(MR + 立体定向CT)提供了重复定位首次植入电极的机会。这种模式为研究延迟DBS电极移位提供了理想的患者群体,因为它提供了一大群在两个时间点对同一植入DBS电极进行定位的患者。在初始术后电极定位CT和延迟CT上测量每个植入DBS电极尖端的位置。收集并分析电极尖端移位、颅内电极长度和脑室指数。用经过验证的评分量表对所有病例的临床结果进行表征,并比较电极移位病例与未发生电极移位病例的结果。
分析了132例患者138个电极的初始和延迟电极定位CT扫描数据。初始和延迟DBS电极尖端位置之间的平均距离为2.2毫米,颅内电极长度的平均变化为0.45毫米。在16例患者的17个电极中观察到明显的延迟移位(>3毫米)(占电极的12.3%,患者的12.1%)。与电极移位相关的因素有:技术错误、重复性肌张力障碍性头部运动和“扭线综合征”。电极移位的肌张力障碍患者的结果更差(p = 0.035)。在帕金森病组中,电极移位病例的临床结果有变差的趋势。
在这个大型单中心队列中,超过10%的DBS电极在延迟测量时移位超过3毫米,对结果产生不利影响。出现了多种危险因素,包括DBS脉冲发生器植入过程中的技术错误和电极在骨孔部位固定失败。我们假设手术技术的改变和更有效的电极固定装置可能会减轻这个问题。
