Investigation of ultrasound image based correction of intraoperative brain shift

Proceedings 2nd Annual IEEE International Symposium on Bioinformatics and Bioengineering (BIBE 2001) Pub Date : 2001-03-04 DOI:10.1109/BIBE.2001.974437

L. M. Bates, R. Robb

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引用次数: 4

Abstract

Stereotactic navigational systems are being incorporated into an increasing number of neurosurgical procedures. Preoperatively acquired 3D images are used for planning the procedure, and are also employed in intraoperative navigations to help localize and resect brain lesions. However, as the operation progresses, multiple factors contribute to changes that limit the accuracy of the navigation based on pre-operative images alone. Our method to correct for brain shift involves the use of ultrasound intraoperatively to update patient specific pre-operative MRI scans using a physics based dynamic model. To validate the imaging and modeling process, a phantom was designed that simulates the brain and its shifting patterns resulting from several of the clinical factors present during a brain operation. MRI and ultrasound datasets were acquired for several permutations of phantom parameters. Deformation algorithms were then applied to the phantom data to demonstrate the efficacy of this approach as a method to effectively update the pre-operatively acquired MRI data during an operation.

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术中颅脑移位超声图像校正的研究

立体定向导航系统正被越来越多的神经外科手术所采用。术前获得的3D图像用于计划手术，也用于术中导航，以帮助定位和切除脑病变。然而，随着手术的进行，多种因素导致的变化限制了仅基于术前图像的导航精度。我们纠正脑偏移的方法包括术中使用超声来更新患者特定的术前MRI扫描，使用基于物理的动态模型。为了验证成像和建模过程，设计了一个模拟大脑及其由大脑手术过程中出现的几种临床因素引起的变化模式的幻影。MRI和超声数据集的幻影参数的几个排列获得。然后将变形算法应用于幻像数据，以证明该方法作为一种有效更新术中术前获得的MRI数据的方法的有效性。

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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Proceedings 2nd Annual IEEE International Symposium on Bioinformatics and Bioengineering (BIBE 2001)

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