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Frameless deep brain stimulation using intraoperative O-arm technology. Clinical article.无框架立体定向脑深部刺激术中应用 O 臂技术。临床文章。
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Intraoperative computed tomography for deep brain stimulation surgery: technique and accuracy assessment.术中计算机断层扫描在脑深部刺激手术中的应用:技术与准确性评估。
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术中CT评估的脑深部电刺激术期间微电极轨迹调整的准确性

Accuracy of Microelectrode Trajectory Adjustments during DBS Assessed by Intraoperative CT.

作者信息

Bus Sander, Pal Gian, Ouyang Bichun, van den Munckhof Pepijn, Bot Maarten, Sani Sepehr, Verhagen Metman Leo

机构信息

Department of Neurology, Amsterdam UMC, Amsterdam, the Netherlands.

Department of Neurological Sciences, Rush University Medical Center, Chicago, Illinois, USA.

出版信息

Stereotact Funct Neurosurg. 2018;96(4):231-238. doi: 10.1159/000489945. Epub 2018 Aug 24.

DOI:10.1159/000489945
PMID:30145596
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6214613/
Abstract

BACKGROUND/AIMS: Microelectrode recording (MER)-guided deep brain stimulation (DBS) aims to place the DBS lead in the optimal electrophysiological target. When single-track MER or test stimulation yields suboptimal results, trajectory adjustments are made. The accuracy of these trajectory adjustments is unknown. Intraoperative computed tomography can visualize the microelectrode (ME) and verify ME adjustments. We aimed to determine the accuracy of ME movements in patients undergoing MER-guided DBS.

METHODS

Coordinates following three methods of adjustment were compared: (1) those within the default "+" configuration of the ME holder; (2) those involving rotation of the default "+" to the "x" configuration; and (3) those involving head stage adjustments. Radial error and absolute differences between coordinates were determined.

RESULTS

87 ME movements in 59 patients were analyzed. Median (IQR) radial error was 0.59 (0.64) mm. Median (IQR) absolute x and y coordinate errors were 0.29 (0.52) and 0.38 (0.44) mm, respectively. Errors were largest after rotating the multielectrode holder to its "x"-shaped setup.

CONCLUSION

ME trajectory adjustments can be made accurately. In a considerable number of cases, errors exceeding 1 mm were found. Adjustments from the "+" setup to the "x" setup are most prone to inaccuracies.

摘要

背景/目的:微电极记录(MER)引导的脑深部电刺激(DBS)旨在将DBS电极放置在最佳电生理靶点。当单轨迹MER或测试刺激产生的结果不理想时,会进行轨迹调整。这些轨迹调整的准确性尚不清楚。术中计算机断层扫描可以可视化微电极(ME)并验证ME调整情况。我们旨在确定接受MER引导的DBS治疗的患者中ME移动的准确性。

方法

比较了三种调整方法后的坐标:(1)ME固定器默认“+”配置内的坐标;(2)将默认“+”旋转为“x”配置后的坐标;(3)涉及头端调整后的坐标。确定了径向误差和坐标之间的绝对差值。

结果

分析了59例患者的87次ME移动。径向误差的中位数(四分位间距)为0.59(0.64)mm。x和y坐标绝对误差的中位数(四分位间距)分别为0.29(0.52)mm和0.38(0.44)mm。将多电极固定器旋转至“x”形设置后误差最大。

结论

ME轨迹调整可以精确进行。在相当多的病例中,发现误差超过1mm。从“+”设置调整到“x”设置最容易出现不准确情况。