Evidence for adaptive myelination of subcortical shortcuts for visual motion perception in healthy adults

Abstract

ABSTRACTConscious visual motion information follows a cortical pathway from the retina to the lateral geniculate nucleus (LGN) and on to the primary visual cortex (V1) before arriving at the middle temporal visual area (MT/V5). Alternative subcortical pathways that bypass V1 are thought to convey unconscious visual information. One flows from the retina to the pulvinar (PUL) and on to MT; while the other directly connects the LGN to MT. Evidence for these pathways comes from non-human primates and modest-sized studies in humans with brain lesions. Thus, the aim of the current study was to reconstruct these pathways in a large sample of neurotypical individuals and to determine the degree to which these pathways are myelinated, suggesting information flow is rapid. We used the publicly available 7T (N = 98; ‘discovery’) and 3T (N = 381; ‘validation’) diffusion MRI datasets from the Human Connectome Project to reconstruct the PUL-MT and LGN-MT pathways. We found more fibre tracts with greater density in the left hemisphere. Although the left PUL-MT path was denser, the bilateral LGN-MT tracts were more heavily myelinated, suggesting faster signal transduction. We suggest that this apparent discrepancy may be due to ‘adaptive myelination’ caused by more frequent use of the LGN-MT pathway that leads to greater myelination and faster overall signal transmission.