期刊
MULTIPLE SCLEROSIS JOURNAL
卷 17, 期 9, 页码 1079-1087出版社
SAGE PUBLICATIONS LTD
DOI: 10.1177/1352458511403528
关键词
atrophy; cerebellum; chronic progressive multiple sclerosis; diffusion tensor imaging; magnetic resonance imaging; relapsing-remitting multiple sclerosis
资金
- Wellcome Trust [074618/Z/04]
- Multiple Sclerosis Society of Great Britain [854/07]
- Multiple Sclerosis Society of Northern Ireland [854/07]
- Department of Health's NIHR Biomedical Research Centre
Background: White matter (WM) and grey matter (GM) brain damage in multiple sclerosis ( MS) is widespread, but the extent of cerebellar involvement and impact on disability needs to be clarified. Objective: This study aimed to assess cerebellar WM and GM atrophy and the degree of fibre coherence in the main cerebellar connections, and their contribution to disability in relapsing-remitting MS (RRMS) and primary progressive MS (PPMS). Methods: Fourteen patients with RRMS, 12 patients with PPMS and 16 healthy controls were recruited. Cerebellar WM and GM volumes and tractography-derived measures from the middle and superior cerebellar peduncles, including fractional anisotropy (FA), mean diffusivity (MD), and directional diffusivities, were quantified from magnetic resonance imaging (MRI). Patients were assessed on clinical scores, including the MS Functional Composite score subtests. Linear regression models were used to compare imaging measures between 12 RRMS, 11 PPMS and 16 controls, and investigate their association with clinical scores. Results: Patients with PPMS showed reduced FA and increased radial diffusivity in the middle cerebellar peduncle compared with controls and patients with RRMS. In PPMS, lower cerebellar WM volume was associated with worse performance on the upper limb test. In the same patient group, we found significant relationships between superior cerebellar peduncle FA and upper limb function, and between superior cerebellar peduncle FA, MD and radial diffusivity and speed of walking. Conclusion: These findings indicate reduced fibre coherence in the main cerebellar connections, and link damage in the whole cerebellar WM, and, in particular, in the superior cerebellar peduncle, to motor deficit in PPMS.
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