Ko Andrew L, Ibrahim Aly, Magown Philippe, Macallum Rebecca, Burchiel Kim J
Department of Neurological Surgery, University of Washington, Seattle, WA, USA.
Stereotact Funct Neurosurg. 2017;95(5):315-324. doi: 10.1159/000479527. Epub 2017 Sep 9.
BACKGROUND/AIMS: Intraoperative imaging allows near-real-time assessment of stereotactic accuracy during implantation of deep brain stimulation (DBS) electrodes. Such technology can be used to examine factors impacting stereotactic error.
Intraoperative CT imaging was reviewed in patients undergoing DBS placement at Oregon Health and Sciences University. Coordinates of the target electrode were compared to the operative plan to characterize the magnitude and direction of stereotactic error with respect to side of implantation, target, and electrode approach angles.
One hundred sixty-nine leads in 94 patients were examined. Targets were GPi (n = 86), STN (n = 31), and Vim (n = 52). The average Euclidean error was 1.63 mm (SD 0.87). The error magnitude was higher for Vim (1.95 mm) than for GPi (1.44 mm), while STN (1.65 mm) did not differ from either Vim or GPi (ANOVA: F = 6.15, p = 0.003). Electrodes targeting Vim and STN were significantly more likely to deviate medially compared to those targeting GPi (ANOVA: F = 9.13, p < 0.001). The coronal approach angle affected the error when targeting Vim (ρ = 0.338, p = 0.01). These findings were confirmed during multivariate analyses.
This study shows a significant effect of target on the accuracy of electrode placement for DBS. Targeting Vim results in a greater Euclidean error and a greater medial deviation off target. These systematic deviations should be taken into account during electrode implantation.
背景/目的:术中成像可在植入脑深部电刺激(DBS)电极期间对立体定向准确性进行近实时评估。该技术可用于检查影响立体定向误差的因素。
回顾了俄勒冈健康与科学大学接受DBS植入手术患者的术中CT成像。将目标电极的坐标与手术计划进行比较,以确定相对于植入侧、靶点和电极入路角度的立体定向误差的大小和方向。
检查了94例患者的169根电极。靶点为苍白球内侧部(GPi,n = 86)、丘脑底核(STN,n = 31)和丘脑腹中间核(Vim,n = 52)。平均欧几里得误差为1.63 mm(标准差0.87)。Vim的误差大小(1.95 mm)高于GPi(1.44 mm),而STN(1.65 mm)与Vim或GPi均无差异(方差分析:F = 6.15,p = 0.003)。与靶向GPi的电极相比,靶向Vim和STN的电极更有可能向内侧偏离(方差分析:F = 9.13,p < 0.001)。冠状入路角度在靶向Vim时影响误差(ρ = 0.338,p = 0.01)。这些发现在多变量分析中得到证实。
本研究表明靶点对DBS电极植入准确性有显著影响。靶向Vim会导致更大的欧几里得误差和更大的靶点内侧偏离。在电极植入过程中应考虑这些系统偏差。
