磁共振信号强度映射到脑表面模型的异质性

32nd Applied Imagery Pattern Recognition Workshop, 2003. Proceedings. Pub Date : 2003-10-15 DOI:10.1109/AIPR.2003.1284259

A. Rebmann, J. Butman

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引用次数: 3

摘要

灰质信号强度的异质性可以在一些MR序列上表现出来，特别是FLAIR。量化这种异质性是有意义的，因为它可以区分不同的皮质区域。由于灰质和白质信号强度的重叠，FLAIR数据的灰质分割失败。这种重叠也损害了基于兴趣区域的方法。虽然体积渲染可以可视化这些差异，但它是非定量的，平均灰质和白质是不可避免的。为了克服这些障碍，除了FLAIR数据外，我们还获得了T1加权数据。T1加权数据提供了强烈的灰/白对比，允许提取皮质表面。基于体的FLAIR数据集与T1数据的配准允许FLAIR信号强度数据映射到T1数据集生成的表面上。这使得区域FLAIR信号强度差异可视化，并在受试者之间进行比较。

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Heterogeneity of MR signal intensity mapped onto brain surface models

Heterogeneity of gray matter signal intensity can be demonstrated on some MR sequences, particularly FLAIR. Quantifying this heterogeneity is of interest as it may distinguish among different cortical areas. Gray matter segmentation fails on FLAIR data due to overlap of gray and white matter signal intensity. This overlap also compromises region of interest based approaches. Although volume rendering can visualize some of these differences, it is non quantitative and averaging gray and white matter cannot be avoided. To overcome these obstacles we obtained T1 weighted data in addition to FLAIR data. T1 weighted data provides strong gray/white contrast, allowing a cortical surface to be extracted. Volume based registration of the FLAIR data set to the T1 data allows FLAIR signal intensity data to be mapped onto the surface generated from the T1 dataset. This allows regional FLAIR signal intensity differences to be visualized and to be compared across subjects.

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32nd Applied Imagery Pattern Recognition Workshop, 2003. Proceedings.

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