Brain cells are arranged in laminar, nuclear, or columnar structures, spanning a range of scales. Here, we construct a reliable cell census in the frontal lobe of human cerebral cortex at micrometer resolution in a magnetic resonance imaging (MRI)-referenced system using innovative imaging and analysis methodologies. MRI establishes a macroscopic reference coordinate system of laminar and cytoarchitectural boundaries. Cell counting is obtained with a digital stereological approach on the 3D reconstruction at cellular resolution from a custom-made inverted confocal light-sheet fluorescence microscope (LSFM). Mesoscale optical coherence tomography enables the registration of the distorted histological cell typing obtained with LSFM to the MRI-based atlas coordinate system. The outcome is an integrated high-resolution cellular census of Broca's area in a human postmortem specimen, within a whole-brain reference space atlas.
A cellular resolution atlas of Broca's area / Costantini, I., Morgan, L., Yang, J., Balbastre, Y., Varadarajan, D., Pesce, L., Scardigli, M., Mazzamuto, G., Gavryusev, V., Castelli, F.M., Roffilli, M., Silvestri, L., Laffey, J., Raia, S., Varghese, M., Wicinski, B., Chang, S., Chen, I.A., Wang, H., Cordero, D., et al.. - In: SCIENCE ADVANCES. - ISSN 2375-2548. - ELETTRONICO. - 9:(2023), pp. 0-0. [10.1126/sciadv.adg3844]
A cellular resolution atlas of Broca's area
Costantini, Irene
;Pesce, Luca;Scardigli, Marina;Mazzamuto, Giacomo;Gavryusev, Vladislav;Castelli, Filippo Maria;Silvestri, Ludovico;Pavone, Francesco Saverio;
2023
Abstract
Brain cells are arranged in laminar, nuclear, or columnar structures, spanning a range of scales. Here, we construct a reliable cell census in the frontal lobe of human cerebral cortex at micrometer resolution in a magnetic resonance imaging (MRI)-referenced system using innovative imaging and analysis methodologies. MRI establishes a macroscopic reference coordinate system of laminar and cytoarchitectural boundaries. Cell counting is obtained with a digital stereological approach on the 3D reconstruction at cellular resolution from a custom-made inverted confocal light-sheet fluorescence microscope (LSFM). Mesoscale optical coherence tomography enables the registration of the distorted histological cell typing obtained with LSFM to the MRI-based atlas coordinate system. The outcome is an integrated high-resolution cellular census of Broca's area in a human postmortem specimen, within a whole-brain reference space atlas.
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A cellular resolution atlas of Broca’s area.pdf
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A cellular resolution atlas of Broca’s area - Supplementary materials.pdf
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