Huntington's disease mouse models online: high-resolution MRI images with stereotaxic templates for computational neuroanatomy

Magnetic resonance imaging (MRI) has proved to be an ideal modality for non-destructive and highly detailed assessment of structural morphology in biological tissues. Here we used MRI to make a dataset of ex vivo brains from two different rodent models of Huntington's disease (HD), the R6/2 lin...

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Veröffentlicht in:	PloS one 2012-12, Vol.7 (12), p.e53361-e53361
Hauptverfasser:	Sawiak, Stephen J, Wood, Nigel I, Carpenter, T Adrian, Morton, A Jennifer
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenine Anatomy Animal models Animal tissues Animals Artificial chromosomes Automation Biology Brain Brain - pathology Brain architecture Colleges & universities Computation Computational neuroscience Computer Science Cortex Cytosine Databases, Factual Datasets Destructive testing Disease Models, Animal Engineering Gene expression Gene mapping Genetic engineering Guanine High definition television Huntington Disease - pathology Huntington's disease Huntingtons disease Image Processing, Computer-Assisted Image resolution Institutional repositories Internet Magnetic resonance Magnetic Resonance Imaging Medical imaging Medicine Mice Mice, Transgenic Mouse devices Mutation Neuroimaging Neurons - pathology Neurophysiology Neurosciences NMR Nuclear magnetic resonance Pathogenesis Pathology Polyglutamine Rodents Substantia alba Substantia grisea Tissues Trajectory analysis Trinucleotide repeat diseases Trinucleotide repeats
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description	Magnetic resonance imaging (MRI) has proved to be an ideal modality for non-destructive and highly detailed assessment of structural morphology in biological tissues. Here we used MRI to make a dataset of ex vivo brains from two different rodent models of Huntington's disease (HD), the R6/2 line and the YAC 128 mouse. We are making the whole dataset (399 transgenic HD and wildtype (WT) brains, from mice aged 9-80 weeks) publicly available. These data will be useful, not only to investigators interested in the study of HD, but also to researchers of computational neuroanatomy who may not have access to such large datasets from mouse models. Here we demonstrate a number of uses of such data, for example to produce maps of grey and white matter and cortical thickness. As an example of how the library might provide insights in mouse models of HD, we calculated whole brain grey matter volumes across different age groups with different numbers of cytosine-adenine-guanine (CAG) repeats in a fragment of the gene responsible for HD in humans. (The R6/2 dataset was obtained from an allelic series of R6/2 mice carrying a range of CAG repeat lengths between 109 and 464.) This analysis revealed different trajectories for each fragment length. In particular there was a gradient of decreasing pathology with longer CAG repeat lengths, reflecting our previous findings with behavioural and histological studies. There will be no constraints placed on the use of the datasets included here. The original data will be easily and permanently accessible via the University of Cambridge data repository (http://www.dspace.cam.ac.uk/handle/1810/243361).
doi_str_mv	10.1371/journal.pone.0053361
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Here we used MRI to make a dataset of ex vivo brains from two different rodent models of Huntington's disease (HD), the R6/2 line and the YAC 128 mouse. We are making the whole dataset (399 transgenic HD and wildtype (WT) brains, from mice aged 9-80 weeks) publicly available. These data will be useful, not only to investigators interested in the study of HD, but also to researchers of computational neuroanatomy who may not have access to such large datasets from mouse models. Here we demonstrate a number of uses of such data, for example to produce maps of grey and white matter and cortical thickness. As an example of how the library might provide insights in mouse models of HD, we calculated whole brain grey matter volumes across different age groups with different numbers of cytosine-adenine-guanine (CAG) repeats in a fragment of the gene responsible for HD in humans. (The R6/2 dataset was obtained from an allelic series of R6/2 mice carrying a range of CAG repeat lengths between 109 and 464.) This analysis revealed different trajectories for each fragment length. In particular there was a gradient of decreasing pathology with longer CAG repeat lengths, reflecting our previous findings with behavioural and histological studies. There will be no constraints placed on the use of the datasets included here. The original data will be easily and permanently accessible via the University of Cambridge data repository (http://www.dspace.cam.ac.uk/handle/1810/243361).</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>23300918</pmid><doi>10.1371/journal.pone.0053361</doi><tpages>e53361</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adenine Anatomy Animal models Animal tissues Animals Artificial chromosomes Automation Biology Brain Brain - pathology Brain architecture Colleges & universities Computation Computational neuroscience Computer Science Cortex Cytosine Databases, Factual Datasets Destructive testing Disease Models, Animal Engineering Gene expression Gene mapping Genetic engineering Guanine High definition television Huntington Disease - pathology Huntington's disease Huntingtons disease Image Processing, Computer-Assisted Image resolution Institutional repositories Internet Magnetic resonance Magnetic Resonance Imaging Medical imaging Medicine Mice Mice, Transgenic Mouse devices Mutation Neuroimaging Neurons - pathology Neurophysiology Neurosciences NMR Nuclear magnetic resonance Pathogenesis Pathology Polyglutamine Rodents Substantia alba Substantia grisea Tissues Trajectory analysis Trinucleotide repeat diseases Trinucleotide repeats
title	Huntington's disease mouse models online: high-resolution MRI images with stereotaxic templates for computational neuroanatomy
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