Interest in the cerebellum has surged with the emerging consensus that it supports diverse functions that are topographically arranged across the cerebellar cortex. Further refinement of these in vivo structure-function relationships is limited by the resolution of existing atlases. Here we present a digital atlas derived from a recent reconstruction of the human cerebellar cortical surface with a mean inter-vertex spacing of 0.16 mm, sufficient to accurately trace the contours of the subfolia, while being consistent with the Schmahmann et al. atlas at the lobular level. We also present ARCUS, a diffeomorphic atlas-to-subject registration approach that yields an atlas-derived, lobule-labeled cerebellar cortical sheet with macroscale folding geometry in individual subjects from standard-resolution MRI. Publicly released, this atlas offers an anatomical ground-truth reference in both volumetric and surface representations at unprecedented granularity, enabling novel and more precise analyses and visualizations of cerebellar data.
Samuelsson et al. (Sun,) studied this question.