重建对侧纤维束:小脑-丘脑皮质通路重建的方法学方面。

Q2 Medicine

Functional neurology Pub Date : 2016-10-01 DOI:10.11138/FNEUR/2016.31.4.229

Fulvia Palesi, J. Tournier, F. Calamante, N. Muhlert, G. Castellazzi, D. Chard, E. D’Angelo, C. Wheeler-Kingshott

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引用次数: 11

摘要

识别连接大脑皮层和皮层下结构的通路对于理解大规模大脑网络是如何运作的至关重要。例如，小脑通过丘脑向大脑皮层投射大量的轴突束。本文重点介绍了利用先进的扩散MRI技术在人体内重建小脑-丘脑-皮层通路的技术细节。在用轨迹密度成像(TDI)创建的超分辨率地图上使用种子/目标放置重建的路径，与在非扩散加权图像(b0)上定义感兴趣区域(roi)重建的路径进行比较。我们观察到，当将roi放置在TDI而不是b0地图上时，通道的重建在解剖学上更加准确，而两种方法之间的受试者间变异性和可重复性相似。扩散指数沿通路显示位置依赖性特异性，将需要考虑在未来的临床研究。

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Reconstructing contralateral fiber tracts: methodological aspects of cerebello-thalamocortical pathway reconstruction.

The identification of pathways connecting the cerebral cortex with subcortical structures is critical to understanding how large-scale brain networks operate. The cerebellum, for example, is known to project numerous axonal bundles to thecerebral cortex passing through the thalamus. This paper focuses on the technical details of cerebello-thalamo-cortical pathway reconstruction using advanced diffusion MRI techniques in humans in vivo. Pathways reconstructed using seed/target placement on super-resolution maps, created with track density imaging (TDI), were compared with those reconstructed by defining regions of interest (ROIs) on non-diffusion weighted images (b0). We observed that the reconstruction of the pathways was more anatomically accurate when using ROIs placed on TDI rather than on b0 maps, while inter-subject variability and reproducibility were similar between the two methods. Diffusion indices along pathways showed a position-dependent specificity that will need to be taken into consideration in future clinical investigations.

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