Quantifying mesoscale neuroanatomy using X-ray microtomography

April 13, 2016 Β· Declared Dead Β· πŸ› eNeuro

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Authors Eva L. Dyer, William Gray Roncal, Hugo L. Fernandes, Doga GΓΌrsoy, Vincent De Andrade, Rafael Vescovi, Kamel Fezzaa, Xianghui Xiao, Joshua T. Vogelstein, Chris Jacobsen, Konrad P. KΓΆrding, Narayanan Kasthuri arXiv ID 1604.03629 Category q-bio.QM Cross-listed cs.CV Citations 85 Venue eNeuro Last Checked 1 month ago
Abstract
Methods for resolving the 3D microstructure of the brain typically start by thinly slicing and staining the brain, and then imaging each individual section with visible light photons or electrons. In contrast, X-rays can be used to image thick samples, providing a rapid approach for producing large 3D brain maps without sectioning. Here we demonstrate the use of synchrotron X-ray microtomography ($ΞΌ$CT) for producing mesoscale $(1~ΞΌm^3)$ resolution brain maps from millimeter-scale volumes of mouse brain. We introduce a pipeline for $ΞΌ$CT-based brain mapping that combines methods for sample preparation, imaging, automated segmentation of image volumes into cells and blood vessels, and statistical analysis of the resulting brain structures. Our results demonstrate that X-ray tomography promises rapid quantification of large brain volumes, complementing other brain mapping and connectomics efforts.
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