3D Mouse Brain Reconstruction from Histology Using a Coarse-to-Fine Approach

The Allen Brain Atlas project aims to bridge the divide between genomics and neuroanatomy by mapping the expression of the entire C57BL/6J mouse genome onto a high-resolution 3D anatomical reference atlas of the mouse brain. We present the image registration approach used to generate this anatomical...

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Veröffentlicht in:	Biomedical Image Registration 2006, p.230-237
Hauptverfasser:	Yushkevich, Paul A., Avants, Brian B., Ng, Lydia, Hawrylycz, Michael, Burstein, Pablo D., Zhang, Hui, Gee, James C.
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Schlagworte:	Allen Brain Atlas Allen Institute Elastic Registration Neighboring Slice Rigid Registration
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container_title	Biomedical Image Registration
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creator	Yushkevich, Paul A. Avants, Brian B. Ng, Lydia Hawrylycz, Michael Burstein, Pablo D. Zhang, Hui Gee, James C.
description	The Allen Brain Atlas project aims to bridge the divide between genomics and neuroanatomy by mapping the expression of the entire C57BL/6J mouse genome onto a high-resolution 3D anatomical reference atlas of the mouse brain. We present the image registration approach used to generate this anatomical reference from histological sections. Due to the large number of sections (525) and the presence of debris and distortions, a straightforward alignment of each slice to its neighbors fails to accurately recover the 3D shape of the brain. On the other hand, multimodality registration of histology slices to an MRI reference compromises correspondences between neighboring slices. Our approach combines the high-frequency component of slice-to-slice histology registration with the low-frequency component of the histology-to-MRI registration to produce a coarse-to-fine reconstruction that is accurate both in its global shape and in the alignment of local features.
doi_str_mv	10.1007/11784012_28
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Due to the large number of sections (525) and the presence of debris and distortions, a straightforward alignment of each slice to its neighbors fails to accurately recover the 3D shape of the brain. On the other hand, multimodality registration of histology slices to an MRI reference compromises correspondences between neighboring slices. Our approach combines the high-frequency component of slice-to-slice histology registration with the low-frequency component of the histology-to-MRI registration to produce a coarse-to-fine reconstruction that is accurate both in its global shape and in the alignment of local features.</abstract><cop>Berlin, Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/11784012_28</doi><tpages>8</tpages></addata></record>
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title	3D Mouse Brain Reconstruction from Histology Using a Coarse-to-Fine Approach
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