TY - RPRT
AU - Adrià Casamitjana
AU - Matteo Mancini
AU - Eleanor Robinson
AU - Loïc Peter
AU - Roberto Annunziata
AU - Juri Althonayan
AU - Shauna Crampsie
AU - Emily Blackburn
AU - Benjamin Billot
AU - Alessia Atzeni
AU - Oula Puonti
AU - Yaël Balbastre
AU - Peter Schmidt
AU - James Hughes
AU - Jean C. Augustinack
AU - Brian L. Edlow
AU - Lilla Zöllei
AU - David L. Thomas
AU - Dorit Kliemann
AU - Martina Bocchetta
AU - Catherine Strand
AU - Janice L. Holton
AU - Zane Jaunmuktane
AU - Juan Eugenio Iglesias
AB - Magnetic resonance imaging (MRI) is the standard tool to image the human brain in vivo. In this domain, digital brain atlases are essential for subject-specific segmentation of anatomical regions of interest (ROIs) and spatial comparison of neuroanatomy from different subjects in a common coordinate frame. High-resolution, digital atlases derived from histology (e.g., Allen atlas [3], BigBrain [4], Julich [5]), are currently the state of the art and provide exquisite 3D cytoarchitectural maps, but lack probabilistic labels throughout the whole brain. Here we present NextBrain, a next-generation probabilistic atlas of human brain anatomy built from serial 3D histology and corresponding highly granular delineations of five whole brain hemispheres. We developed AI techniques to align and reconstruct ∼10,000 histological sections into coherent 3D volumes, as well as to semi-automatically trace the boundaries of 333 distinct anatomical ROIs on all these sections. Comprehensive delineation on multiple cases enabled us to build an atlas with probabilistic labels throughout the whole brain. Further, we created a companion Bayesian tool for automated segmentation of the 333 ROIs in any in vivo or ex vivo brain MRI scan using the NextBrain atlas. We showcase two applications of the atlas: automated segmentation of ultra-high-resolution ex vivo MRI and volumetric analysis of brain ageing based on ∼4,000 publicly available in vivo MRI scans. We publicly release the raw and aligned data (including an online visualisation tool), probabilistic atlas, and segmentation tool. By enabling researchers worldwide to analyse brain MRI scans at a superior level of granularity without manual effort or highly specific neuroanatomical knowledge, NextBrain will accelerate our quest to understand the human brain in health and disease.
DA - 2024-02-06
DO - 10.1101/2024.02.05.579016
LA - en
N2 - Magnetic resonance imaging (MRI) is the standard tool to image the human brain in vivo. In this domain, digital brain atlases are essential for subject-specific segmentation of anatomical regions of interest (ROIs) and spatial comparison of neuroanatomy from different subjects in a common coordinate frame. High-resolution, digital atlases derived from histology (e.g., Allen atlas [3], BigBrain [4], Julich [5]), are currently the state of the art and provide exquisite 3D cytoarchitectural maps, but lack probabilistic labels throughout the whole brain. Here we present NextBrain, a next-generation probabilistic atlas of human brain anatomy built from serial 3D histology and corresponding highly granular delineations of five whole brain hemispheres. We developed AI techniques to align and reconstruct ∼10,000 histological sections into coherent 3D volumes, as well as to semi-automatically trace the boundaries of 333 distinct anatomical ROIs on all these sections. Comprehensive delineation on multiple cases enabled us to build an atlas with probabilistic labels throughout the whole brain. Further, we created a companion Bayesian tool for automated segmentation of the 333 ROIs in any in vivo or ex vivo brain MRI scan using the NextBrain atlas. We showcase two applications of the atlas: automated segmentation of ultra-high-resolution ex vivo MRI and volumetric analysis of brain ageing based on ∼4,000 publicly available in vivo MRI scans. We publicly release the raw and aligned data (including an online visualisation tool), probabilistic atlas, and segmentation tool. By enabling researchers worldwide to analyse brain MRI scans at a superior level of granularity without manual effort or highly specific neuroanatomical knowledge, NextBrain will accelerate our quest to understand the human brain in health and disease.
PY - 2024
TI - A next-generation, histological atlas of the human brain and its application to automated brain MRI segmentation
UR - https://www.biorxiv.org/content/10.1101/2024.02.05.579016v1
Y2 - 2024-08-13
ER -