Hierarchical X-ray microscopy and mesoscopic diffusion MRI in the same brain reveal the human connectome across scales
Morgane Chourrout, Ting Gong, Richard Schalek, A. Keenlyside, Yaël Balbastre, Neha Karlupia, R. A. Gonzales, Istvan N. Huszar, E. Wanjau, Joseph Brunet, Timea Urban, Hector Dejea, David Stansby, Kabilar Gunalan, B. Glickman, Edward Gaibor, J. Scherick, Kalliopi Bintsi, C. Mauri, C. Analoro, Satrajit S Ghosh, A. Bellier, Bruce R. Fischl, Jean Augustinack, Paul Tafforeau, Chiara Maffei, Peter D. Lee, Jeff W. Lichtman, Anastasia Yendiki, Claire L. Walsh
Identifiers and access
Key findings
A multimodal pipeline images cerebral white matter in one ex vivo human hemisphere across scales - mesoscopic diffusion MRI, Hierarchical Phase-Contrast Tomography (HiP-CT, 20 -> 0.857 um/voxel), osmium micro-CT (0.364 um), and electron microscopy (4 nm) - with intrinsic cross-scale alignment, resolving from whole-brain axonal projections down to single myelinated axons.
Abstract
Source: publisher
We present a multimodal pipeline for 3D imaging of cerebral white-matter archi-tecture across scales, from whole-brain axonal projections down to individual myelinated axons. After diffusion MRI, an adult ex vivo human hemisphere undergoes label-free imaging with Hierarchical Phase-Contrast Tomography (HiP-CT) from 20 µm/voxel in the whole hemisphere to 2 µm/voxel in areas of interest, with intrinsic cross-scale alignment. A 4 cm tissue block extracted from the hemisphere is reimaged with HiP-CT at 0.857 µm/voxel, enabling direct visualisation of single myelinated axons. After osmium staining, micro-CT at 0.364 µm/voxel and electron microscopy at 4 nm/voxel are acquired in biop-sies from the tissue block to validate the presence of myelinated axons in the label-free HiP-CT contrast. Spanning three orders of magnitude in resolution, these co-registered multimodal datasets bridge microscopic wiring and macro-scopic brain organisation, providing a foundation for anatomically grounded whole-brain connectomics.
Topics
- connectomics-circuits
- neuroimaging-methods
Associated projects
Lab authors
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