Reference-Free 3D Reconstruction of Brain Dissection Slabs via Learned Atlas Coordinates

Lin Tian; Jonathan Williams-Ramirez; Dina Zemlyanker; Lucas J. Deden-Binder; Rogeny Herisse; Theresa R. Connors; Mark Montine; Istvan N Huszar; Lilla Zöllei; Sean I. Young; Christine Mac Donald; C. Dirk Keene; Derek H. Oakley; Bradley T. Hyman; Oula Puonti; Matthew S. Rosen; Juan Eugenio Iglesias

Paper

Reference-Free 3D Reconstruction of Brain Dissection Slabs via Learned Atlas Coordinates

Abstract

Correlation of neuropathology with MRI has the potential to transfer microscopic signatures of pathology to in vivo scans. There is increasing interest in building these correlations from 3D reconstructed stacks of slab photographs, which are routinely taken during dissection at brain banks. These photographs bypass the need for ex vivo MRI, which is not widely accessible. However, existing methods either require a corresponding 3D reference (e.g., an ex vivo MRI scans, or a brain surface acquired with a structured light scanner) or a full stack of brain slabs, which severely limits applicability. Here we propose RefFree, a 3D reconstruction method for dissection photographs that does not require an external reference. RefFree coherently reconstructs a 3D volume for an arbitrary set of slabs (including a single slab) using predicted 3D coordinates in the standard atlas space (MNI) as guidance. To support RefFree's pipeline, we train an atlas coordinate prediction network that estimates the coordinate map from a 2D photograph, using synthetic photographs generated from digitally sliced 3D MRI data with randomized appearance for enhanced generalization. As a by-product, RefFree can propagate information (e.g., anatomical labels) from atlas space to one single photograph even without reconstruction. Experiments on simulated and real data show that, when all slabs are available, RefFree achieves performance comparable to existing classical methods but at substantially higher speed. Moreover, RefFree yields accurate reconstruction and registration for partial stacks or even a single slab. Our code is available at https://github.com/lintian-a/reffree.