3D reconstruction of ultra-high resolution neurotransmitter receptor atlases in human and non-human primate brains

Abstract

Abstract Quantitative maps of neurotransmitter receptor densities are important tools for characterising the molecular organisation of the brain and key for understanding normal and pathologic brain function and behaviour. We describe a novel method for reconstructing 3-dimensional cortical maps for data sets consisting of multiple different types of 2-dimensional post-mortem histological sections, including autoradiographs acquired with different ligands, cell body and myelin stained sections, and which can be applied to data originating from different species. The accuracy of the reconstruction was quantified by calculating the Dice score between the reconstructed volumes versus their reference anatomic volume. The average Dice score was 0.91. We were therefore able to create atlases with multiple accurately reconstructed receptor maps for human and macaque brains as a proof-of-principle. Future application of our pipeline will allow for the creation of the first ever set of ultra-high resolution 3D atlases composed of 20 different maps of neurotransmitter binding sites in 3 complete human brains and in 4 hemispheres of 3 different macaque brains.