Chenonceau: mesoscopic MRI deep phenotyping of a post-mortem human brain at 7 and 11.7 Tesla

The human brain’s organization, from macroscopic connectivity to microscopic architecture, has never been mapped across multiple modalities in a single post-mortem specimen at mesoscopic resolution. Here we present Chenonceau, a complete post-mortem human brain atlas acquired using two ultra-high-field preclinical MRI systems. Combining anatomical, diffusion, and quantitative MRI from 100 to 200 μm isotropic resolution, the 8000-hour acquisition campaign overcomes the fundamental trade-off between spatial resolution, tissue coverage, and multimodality that commonly constrains MRI neuroimaging in humans. The resulting open-access dataset integrates the first whole-brain mesoscopic connectome along with cortical lamination, myelo-, and cyto-architecture mapping. Importantly, the spatial and angular resolutions achieved reveal the intracortical connectivity at the whole-brain scale. Bridging the scale gap between in vivo imaging and post-mortem microscopic datasets, the Chenonceau brain atlas establishes a foundational reference for joint mesoscale analysis of human brain structure, connectivity, and microarchitecture. The dataset is openly available on the EBRAINS portal.