Average wild-type C57BL/6J mouse 3D MRI cerebellum labels

Egan, Gary F., Reutens, David, Galloway, Graham J., Watson, Charles, Andrew Janke, Kurniawan, Nyoman D. and Ullmann, Jeremy F. (2015): Average wild-type C57BL/6J mouse 3D MRI cerebellum labels. The University of Queensand. Dataset. doi:10.14264/uql.2015.866

Project name Australian Mouse Brain Mapping
Project description
We propose to establish the Australian Mouse Brain Mapping Consortium which is a national network of facilities allowing Australian researchers to better characterise mouse models of neurological diseases such as Alzheimer's Disease and stroke. Just as accurate maps were key to the voyages of geographic discovery in the 17th and 18th century, improved methods of mapping structural and functional changes in the brain of mouse models of neurological disease will be key to discovery in the neurosciences in the 21st century . For the Consortium the cartographic tools will be magnetic resonance imaging (MRI), microscopy and sophisticated computational methods of mapping brain structure and function. Participants in the Consortium are internationally recognised leaders in brain imaging based at Monash University, the Howard Florey Institute, the Prince of Wales Medical Research Institute and the Centre for Magnetic Resonance and the Queensland Brain Institute, University of Queensland.
Contact name Andrew Janke
Contact email a.janke1@uq.edu.au
Creator name Egan, Gary F.
Reutens, David
Galloway, Graham J.
Watson, Charles
Andrew Janke
Kurniawan, Nyoman D.
Ullmann, Jeremy F.
Creator(s) role Senior Researcher
Senior Researcher
Senior Researcher
Senior Researcher
Senior Researcher
Senior Researcher
Senior Researcher
Dataset name Average wild-type C57BL/6J mouse 3D MRI cerebellum labels
Dataset description
The cerebellum is a major brain structure central for the voluntary control of the motor system and is implicated in a range of movement disorders. Mice are a well validated models for studying the human cerebellum and creation of digital atlases that can capture biological variability in control and diseased mice are critical for understanding the underlying basis of human neurological disease. As a result in this study we present a methodology for systematic delineation of the vermal and hemispheric lobules of the C57BL/6J mouse cerebellum in magnetic resonance images. We have successfully delineated 38 cerebellar and cerebellar-related structures.
Access conditions Open Access
Licencing and terms of access Creative Commons Attribution (only)

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ANZSRC Field of Research (FoR) Code 060805 Animal Neurobiology
1109 Neurosciences
110903 Central Nervous System
DOI 10.14264/uql.2015.866
Grant ID http://purl.org/au-research/grants/nhmrc/436673
Type of data MRI images
Language eng
Keyword Mouse brain mapping
Magnetic Resonance Imaging
Collection type Dataset
Publisher The University of Queensand
Publication Year 2015
Copyright notice 2015, The University of Queensland
Additional Notes Whole data collection location: http://q0013-webdav.qcloud.qcif.edu.au/desktop.html?ds=6&plane=y&x=0.009&y=0.024&z=2.966&zoom=3

Document type: Data Collection
Collections: Research Data Collections
Centre for Advanced Imaging Publications
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Created: Fri, 25 Sep 2015, 13:31:30 EST by Fei Yu