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J Neurosurg. 2019 Feb 15;132(2):595-604. doi: 10.3171/2018.10.JNS182169. Print 2020 Feb 1.
2
A Review of Biomarkers Use in Parkinson with Deep Brain Stimulation: A Successful Past Promising a Bright Future.帕金森病脑深部电刺激治疗中生物标志物应用的综述:成功的过去预示着光明的未来
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3
Deep Brain Stimulation: Clinical Applications.深部脑刺激:临床应用
Psychiatr Clin North Am. 2018 Sep;41(3):385-394. doi: 10.1016/j.psc.2018.04.004. Epub 2018 Jul 17.
4
Deep brain stimulation of the cerebellum for poststroke motor rehabilitation: from laboratory to clinical trial.小脑深部电刺激治疗脑卒中后运动功能障碍:从实验室到临床试验。
Neurosurg Focus. 2018 Aug;45(2):E13. doi: 10.3171/2018.5.FOCUS18164.
5
Outcomes following deep brain stimulation lead revision or reimplantation for Parkinson's disease.帕金森病深部脑刺激电极修复或重新植入后的结果。
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A simple, inexpensive method for subcortical stereotactic targeting in nonhuman primates.一种在非人类灵长类动物中进行皮质下立体定向的简单、廉价方法。
J Neurosci Methods. 2018 Jul 15;305:89-97. doi: 10.1016/j.jneumeth.2018.05.007. Epub 2018 May 18.
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Deep brain stimulation outcomes in patients implanted under general anesthesia with frame-based stereotaxy and intraoperative MRI.在基于框架的立体定向和术中磁共振引导下全麻植入的患者中,深部脑刺激的结果。
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Parkinsonism and vigilance: alteration in neural oscillatory activity and phase-amplitude coupling in the basal ganglia and motor cortex.帕金森症与警觉性:基底神经节和运动皮层神经振荡活动及相位-振幅耦合的改变
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MRI-guided stereotactic neurosurgical procedures in a diagnostic MRI suite: Background and safe practice recommendations.诊断性MRI设备中MRI引导的立体定向神经外科手术:背景与安全操作建议
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一种用于在非人类灵长类动物中靶向皮质下核的无框架立体定向系统的可行性和性能。

Feasibility and performance of a frameless stereotactic system for targeting subcortical nuclei in nonhuman primates.

机构信息

Departments of1Neurosciences.

2Department of Biomedical Engineering, Case Western Reserve University, Cleveland, Ohio; and.

出版信息

J Neurosurg. 2020 Mar 6;134(3):1064-1071. doi: 10.3171/2019.12.JNS192946. Print 2021 Mar 1.

DOI:10.3171/2019.12.JNS192946
PMID:32114536
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8630522/
Abstract

OBJECTIVE

Deep brain stimulation (DBS) is an effective therapy for different neurological diseases, despite the lack of comprehension of its mechanism of action. The use of nonhuman primates (NHPs) has been historically important in advancing this field and presents a unique opportunity to uncover the therapeutic mechanisms of DBS, opening the way for optimization of current applications and the development of new ones. To be informative, research using NHPs should make use of appropriate electrode implantation tools. In the present work, the authors report on the feasibility and accuracy of targeting different deep brain regions in NHPs using a commercially available frameless stereotactic system (microTargeting platform).

METHODS

Seven NHPs were implanted with DBS electrodes, either in the subthalamic nucleus or in the cerebellar dentate nucleus. A microTargeting platform was designed for each animal and used to guide implantation of the electrode. Imaging studies were acquired preoperatively for each animal, and were subsequently analyzed by two independent evaluators to estimate the electrode placement error (EPE). The interobserver variability was assessed as well.

RESULTS

The radial and vector components of the EPE were estimated separately. The magnitude of the vector of EPE was 1.29 ± 0.41 mm and the mean radial EPE was 0.96 ± 0.63 mm. The interobserver variability was considered negligible.

CONCLUSIONS

These results reveal the suitability of this commercial system to enhance the surgical insertion of DBS leads in the primate brain, in comparison to rigid traditional frames. Furthermore, our results open up the possibility of performing frameless stereotaxy in primates without the necessity of relying on expensive methods based on intraoperative imaging.

摘要

目的

尽管对其作用机制缺乏了解,但深部脑刺激(DBS)是治疗多种神经疾病的有效疗法。非人类灵长类动物(NHP)的使用在该领域的发展中具有重要意义,为揭示 DBS 的治疗机制提供了独特的机会,为优化当前应用和开发新应用开辟了道路。为了提供信息,使用 NHP 的研究应该利用适当的电极植入工具。在目前的工作中,作者报告了使用商业上可用的无框架立体定向系统(microTargeting 平台)在 NHP 中靶向不同深部脑区的可行性和准确性。

方法

7 只 NHP 被植入 DBS 电极,要么在丘脑底核,要么在小脑齿状核。为每个动物设计了一个 microTargeting 平台,并用于引导电极植入。每个动物在术前都进行了成像研究,并由两名独立评估者对电极放置误差(EPE)进行分析。还评估了观察者间的可变性。

结果

分别估计了 EPE 的径向和向量分量。EPE 向量的大小为 1.29 ± 0.41mm,平均径向 EPE 为 0.96 ± 0.63mm。观察者间的可变性可忽略不计。

结论

这些结果表明,与刚性传统框架相比,该商业系统适合增强 DBS 导联在灵长类大脑中的手术插入。此外,我们的结果为在不需要依赖基于术中成像的昂贵方法的情况下在灵长类动物中进行无框架立体定向术开辟了可能性。