Progression of structural neuropathology in preclinical Huntington's disease: a tensor based morphometry study
Progression of structural neuropathology in preclinical Huntington's disease: a tensor based morphometry study
Background and objectives: regional cerebral atrophy occurs in carriers of the Huntington’s disease (HD) gene mutation before clinical diagnosis is possible. The current inability to reliably measure progression of pathology in this preclinical phase impedes development of therapies to delay clinical onset. We hypothesised that longitudinal statistical imaging would detect progression of structural pathology in preclinical carriers of the HD gene mutation, in the absence of measurable clinical change.
Methods: thirty subjects (17 preclinical mutation positive, 13 mutation negative) underwent serial clinical and magnetic resonance imaging (MRI) assessments over an interval of 2 years. Statistically significant changes in regional grey and white matter volume on MRI were analysed using tensor based morphometry (TBM). This technique derives a voxel-wise estimation of regional tissue volume change from the deformation field required to warp a subject’s early to late T1 images.
Results: over 2 years, there was progressive regional grey matter atrophy in mutation-positive relative to negative subjects, without significant clinical progression of disease. Significant grey matter volume loss was limited to bilateral putamen and globus pallidus externa (GPe), left caudate nucleus, and left ventral midbrain in the region of the substantia nigra.
Conclusions: while these results are consistent with previous cross sectional pathologic and morphometric studies, significant progression of atrophy in HD before the onset of significant clinical decline is now demonstrable with longitudinal statistical imaging. Such measures could be used to assess the efficacy of potential disease modifying drugs in slowing the progression of pathology before confirmed clinical onset of HD.
650-655
Kipps, C.M.
e43be016-2dc2-45e6-9a02-ab2a0e0208d5
Duggins, A.J.
68268591-6bd1-4417-a56f-c5ea024a5fdb
Mahant, N.
4650f358-7cc3-4f47-9097-360684a84046
Gomes, L.
58179dc9-5b9e-4f47-847e-280b39c63d94
Ashburner, J
973adb5d-314f-42ff-bcdf-dbda75ecbf4d
McCusker, E.A.
7975077a-ffa0-49eb-95e9-1a8360c1ce89
Kipps, C.M.
e43be016-2dc2-45e6-9a02-ab2a0e0208d5
Duggins, A.J.
68268591-6bd1-4417-a56f-c5ea024a5fdb
Mahant, N.
4650f358-7cc3-4f47-9097-360684a84046
Gomes, L.
58179dc9-5b9e-4f47-847e-280b39c63d94
Ashburner, J
973adb5d-314f-42ff-bcdf-dbda75ecbf4d
McCusker, E.A.
7975077a-ffa0-49eb-95e9-1a8360c1ce89
Kipps, C.M., Duggins, A.J., Mahant, N., Gomes, L., Ashburner, J and McCusker, E.A.
(2005)
Progression of structural neuropathology in preclinical Huntington's disease: a tensor based morphometry study.
Journal of Neurology, Neurosurgery, and Psychiatry, 76, .
(doi:10.1136/jnnp.2004.047993).
Abstract
Background and objectives: regional cerebral atrophy occurs in carriers of the Huntington’s disease (HD) gene mutation before clinical diagnosis is possible. The current inability to reliably measure progression of pathology in this preclinical phase impedes development of therapies to delay clinical onset. We hypothesised that longitudinal statistical imaging would detect progression of structural pathology in preclinical carriers of the HD gene mutation, in the absence of measurable clinical change.
Methods: thirty subjects (17 preclinical mutation positive, 13 mutation negative) underwent serial clinical and magnetic resonance imaging (MRI) assessments over an interval of 2 years. Statistically significant changes in regional grey and white matter volume on MRI were analysed using tensor based morphometry (TBM). This technique derives a voxel-wise estimation of regional tissue volume change from the deformation field required to warp a subject’s early to late T1 images.
Results: over 2 years, there was progressive regional grey matter atrophy in mutation-positive relative to negative subjects, without significant clinical progression of disease. Significant grey matter volume loss was limited to bilateral putamen and globus pallidus externa (GPe), left caudate nucleus, and left ventral midbrain in the region of the substantia nigra.
Conclusions: while these results are consistent with previous cross sectional pathologic and morphometric studies, significant progression of atrophy in HD before the onset of significant clinical decline is now demonstrable with longitudinal statistical imaging. Such measures could be used to assess the efficacy of potential disease modifying drugs in slowing the progression of pathology before confirmed clinical onset of HD.
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Accepted/In Press date: 1 October 2004
e-pub ahead of print date: 15 April 2005
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Local EPrints ID: 489377
URI: http://eprints.soton.ac.uk/id/eprint/489377
ISSN: 0022-3050
PURE UUID: f564bfce-8200-4aa5-b1c7-bc967d4e31d5
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Date deposited: 23 Apr 2024 16:31
Last modified: 24 Apr 2024 01:56
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Author:
C.M. Kipps
Author:
A.J. Duggins
Author:
N. Mahant
Author:
L. Gomes
Author:
J Ashburner
Author:
E.A. McCusker
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