Full description
The basal ganglia are group of subpallial nuclei that play an important role inmotor, emotional, and cognitive functions. Morphological changes and disrupted afferent/efferent connections in the basal ganglia have been associated with a variety of neurological disorders including psychiatric and movement disorders. While high-resolution magnetic resonance imaging has been used to characterize changes in brain structure in mouse models of these disorders no systematicmethod for segmentation of the C57BL/6J mouse basal ganglia exists. In this study we have used high-resolution MR images of ex-vivo C57BL/6J mouse brain to create a detailed protocol for segmenting the basal ganglia. We created a three-dimensional minimum deformation atlas, which includes the segmentation of 35 striatal, pallidal, and basal ganglia-related structures. In addition, we provide mean volumes, mean T2 contrast intensities and mean FA and ADC values for each structure. This MR atlas is available for download, and enables researchers to perform automated segmentation in genetic models of basal ganglia disorders.Issued: 2015
Subjects
Animal Neurobiology |
Biological Sciences |
Basal Ganglia |
Central Nervous System |
Medical and Health Sciences |
Magnetic Resonance Imaging |
Mouse brain mapping |
Neurosciences |
Zoology |
eng |
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Other Information
Research Data Collections
local : UQ:289097
Centre for Advanced Imaging Publications
local : UQ:3927
Identifiers
- DOI : 10.14264/UQL.2015.867
