期刊
MULTIPLE SCLEROSIS
卷 15, 期 6, 页码 687-694出版社
SAGE PUBLICATIONS LTD
DOI: 10.1177/1352458509103176
关键词
atrophy; grey matter; lesions; magnetic resonance imaging; magnetization transfer ratio; multiple sclerosis
资金
- MS Society of Great Britain
- Department of Health's NIHR Biomedical Research Centres funding scheme
Background Although MRI measures of grey matter abnormality correlate with clinical disability in multiple sclerosis, it is uncertain whether grey matter abnormality measured on MRI is entirely due to a primary grey matter process or whether it is partly related to disease in the white matter. Methods To explore potential mechanisms of grey matter damage we assessed the relationship of white matter T2 lesion volume, T1 lesion volume, and mean lesion magnetisation transfer ratio (MTR), with MRI measures of tissue atrophy and MTR in the grey matter in 117 subjects with secondary progressive multiple sclerosis. Results Grey matter fraction and mean grey matter MTR were strongly associated with lesion volumes and lesion MTR mean (r = +/- 0.63-0.72). In contrast, only weak to moderate correlations existed between white matter and lesion measures. In a stepwise regression model, T1 lesion volume was the only independent lesion correlate of grey matter fraction and accounted for 52% of the variance. Lesion MTR mean and T2 lesion volume were independent correlates of mean grey matter MTR, accounting for 57% of the variance. Conclusions Axonal transection within lesions with secondary degeneration into the grey matter may explain the relationship between T1 lesions and grey matter fraction. A parallel accumulation of demyelinating lesions in white and grey matter may contribute to the association of T2 lesion volume and lesion MTR with grey matter MTR. Multiple Sclerosis 2009; 15: 687-694. http://msj.sagepub.com
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