帕金森病患者深部脑刺激的丘脑下核及其邻近结构的计算三维图谱。

ISRN Neurology Pub Date : 2012-01-01 DOI:10.5402/2012/592678
Naoki Nakano, Mamoru Taneda, Akira Watanabe, Amami Kato
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引用次数: 11

摘要

背景。丘脑下核深部脑刺激(DBS)是晚期帕金森病的标准手术治疗方法之一。然而,使用二维图谱很难准确定位电极在丘脑下核及其邻近结构中的受刺激接触区域。本研究的目的是利用由个人计算机构建的新型计算三维图谱,验证治疗性插入STN及其邻近结构的DBS电极受刺激接触的真实和详细定位。方法。基于Schaltenbrand和Wahren立体定向图谱的矢状面切片,利用商业软件在个人电脑上制作了STN及其邻近结构的三维图谱(3d -丘脑下图谱)。在术中第三脑室造影的基础上,将电极插入STN及其邻近结构叠加在我们的3d丘脑下图谱上。发现。使用3d -丘脑下图谱确定DBS电极的准确定位,并对11例患者进行电极刺激的临床疗效研究。结论。该研究表明,3d丘脑下图谱是了解脑深部结构形态和DBS电极刺激接触精确解剖位置的有用工具。使用3D图谱的临床分析支持了这样一种观点,即刺激STN附近的结构,特别是中间带或Forel H区,在治疗晚期帕金森病方面与刺激STN本身一样有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Computed three-dimensional atlas of subthalamic nucleus and its adjacent structures for deep brain stimulation in Parkinson's disease.

Background. Deep brain stimulation (DBS) of the subthalamic nucleus (STN) is one of the standard surgical treatments for advanced Parkinson's disease. However, it has been difficult to accurately localize the stimulated contact area of the electrode in the subthalamic nucleus and its adjacent structures using a two-dimensional atlas. The goal of this study is to verify the real and detailed localization of stimulated contact of the DBS electrode therapeutically inserted into the STN and its adjacent structures using a novel computed three-dimensional atlas built by a personal computer. Method. A three-dimensional atlas of the STN and its adjacent structures (3D-Subthalamus atlas) was elaborated on the basis of sagittal slices from the Schaltenbrand and Wahren stereotactic atlas on a personal computer utilizing a commercial software. The electrode inserted into the STN and its adjacent structures was superimposed on our 3D-Subthalamus atlas based on intraoperative third ventriculography in 11 cases. Findings. Accurate localization of the DBS electrode was identified using the 3D-Subthalamus atlas, and its clinical efficacy of the electrode stimulation was investigated in all 11 cases. Conclusion. This study demonstrates that the 3D-Subthalamus atlas is a useful tool for understanding the morphology of deep brain structures and for the precise anatomical position findings of the stimulated contact of a DBS electrode. The clinical analysis using the 3D atlas supports the contention that the stimulation of structures adjacent to the STN, particularly the zona incerta or the field of Forel H, is as effective as the stimulation of the STN itself for the treatment of advanced Parkinson's disease.

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