Published 2018-12-30
Keywords
- Red nucleus,
- cerebellum,
- magnocellular part,
- parvicellular part,
- connectivity
- tractography,
- segmentation ...More
How to Cite
Abstract
The Red Nucleus (RN) is a large, iron-loaded nucleus located in the ventral midbrain. In monkeys, itis subdivided into a small caudoventral magnocellular part (mRN) and a large rostrodorsal parvicellular part (pRN). The mRN is more connected with motor and premo- tor regions of the cortex, interposed nuclei and spinal motor neurons via the rubrospinal tract [1]. By contrast, the pRN is more connected with cortex and is part of the dento-rubro-olivary pathway involved in movement preparation and motor learning. In humans, functional neu- roimaging studies suggest RN involvement in complex motor, but also in sensory and cogni- tive functions. However, none of these studies was able to distinguish between topographically organized subregions of the RN and just a few studies focused on its structural and functional connections. In this regard, we have previously employed Constrained Spherical Deconvolu- tion (CSD) tractography in order to characterise the structural connectome of the RN in thehuman brain and in vivo, showing robust connectivity profiles with the cerebellum, thalamus, paracentral lobule, postcentral gyrus, precentral gyrus and superior frontal gyrus [2]. Herein, we use high-quality 3T structural and diffusion MRI data from the Human Connectome Pro- ject (HCP) and CSD tractography with a connectivity-based segmentation approach, in order to identify topographically distinguished subregions of the RN according to their different cortical and subcortical connectivity profiles. We tracked connections of RN both with inferior olivary nuclei (IONs), interposed nuclei (INs) and dentate nuclei (DNs), as well as with frontal motor and associative cortices. We found that each RN can be subdivided according to its connectivity into two clusters: a large dorsolateral one, more connected with DNs and IONs, and a smaller ventromedial one, more connected with IN. Topographical connections between cortical areas and these two clusters was also evaluated. Our results are in line with previous literature and confirm CSD-based tractography and connectivity-based segmentation as valuable tools for theevaluation of human neuroanatomy.