A Stereotactic Probabilistic Atlas for the Major Cerebral Arteries
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- 作者:Tora Dunås ; Anders Wåhlin ; Khalid Ambarki ; Laleh Zarrinkoob ; Jan Malm…
- 关键词:Cerebral arteries ; Probabilistic atlas ; 4D flow MRI ; Automatic labeling ; Spatial normalization
- 刊名:Neuroinformatics
- 出版年:2017
- 出版时间:January 2017
- 年:2017
- 卷:15
- 期:1
- 页码:101-110
- 全文大小:1709KB
- 刊物主题:Neurosciences; Bioinformatics; Computational Biology/Bioinformatics; Computer Appl. in Life Sciences; Neurology;
- 出版者:Springer US
- ISSN:1559-0089
- 卷排序:15
文摘
Improved whole brain angiographic and velocity-sensitive MRI is pushing the boundaries of noninvasively obtained cerebral vascular flow information. The complexity of the information contained in such datasets calls for automated algorithms and pipelines, thus reducing the need of manual analyses by trained radiologists. The objective of this work was to lay the foundation for such automated pipelining by constructing and evaluating a probabilistic atlas describing the shape and location of the major cerebral arteries. Specifically, we investigated how the implementation of a non-linear normalization into Montreal Neurological Institute (MNI) space improved the alignment of individual arterial branches. In a population-based cohort of 167 subjects, age 64–68 years, we performed 4D flow MRI with whole brain volumetric coverage, yielding both angiographic and anatomical data. For each subject, sixteen cerebral arteries were manually labeled to construct the atlas. Angiographic data were normalized to MNI space using both rigid-body and non-linear transformations obtained from anatomical images. The alignment of arterial branches was significantly improved by the non-linear normalization (p < 0.001). Validation of the atlas was based on its applicability in automatic arterial labeling. A leave-one-out validation scheme revealed a labeling accuracy of 96 %. Arterial labeling was also performed in a separate clinical sample (n = 10) with an accuracy of 92.5 %. In conclusion, using non-linear spatial normalization we constructed an artery-specific probabilistic atlas, useful for cerebral arterial labeling.