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- Title
Brain atrophy evolution and lesion load accrual in multiple sclerosis: a 2-year follow-up study.
- Authors
Tedeschi, G.; Dinacci, D.; Comerci, M.; Lavorgna, L.; Savettieri, G.; Quattrone, A.; Livrea, P.; Patti, F.; Morra, V. Brescia; Servillo, G.; Orefice, G.; Paciello, M.; Prinster, A.; Coniglio, G.; Bonavita, S.; Di Costanzo, A.; Bellacosa, A.; Valentino, P.; Quarantelli, M.; Brunetti, A.
- Abstract
Background To investigate in a large cohort of patients with multiple sclerosis (MS), lesion load and atrophy evolution, and the relationship between clinical and magnetic resonance imaging (MRI) correlates of disease progression. Methods Two hundred and sixty-seven patients with MS were studied at baseline and two years later using the same MRI protocol. Abnormal white matter fraction, normal appearing white matter fraction, global white matter fraction, gray matter fraction and whole brain fraction, T2-hyperintense, and T1-hypointense lesions were measured at both time points. Results The majority of patients were clinically stable, whereas MRI-derived brain tissue fractions were significantly different after 2 years. The correlation between MRI data at baseline and their variation during the follow-up showed that lower basal gray matter atrophy was significantly related with higher progression of gray matter atrophy during follow-up. The correlation between MRI parameters and disease duration showed that gray matter atrophy rate decreased with increasing disease duration, whereas the rate of white matter atrophy had a constant pattern. Lower basal gray matter atrophy was associated with increased probability of developing gray matter atrophy at follow-up, whereas gray matter atrophy progression over 2 years and new T2 lesion load were risk factors for whole brain atrophy progression. Conclusions In MS, brain atrophy occurs even after a relatively short period of time and in patients with limited progression of disability. Short-term brain atrophy progression rates differ across tissue compartments, as gray matter atrophy results more pronounced than white matter atrophy and appears to be a early phenomenon in the MS-related disease progression.
- Subjects
BRAIN degeneration; BRAIN diseases; MULTIPLE sclerosis; MEDICAL imaging systems; MAGNETIC resonance imaging; DIAGNOSTIC imaging; DEMYELINATION; MYELIN sheath diseases
- Publication
Multiple Sclerosis (13524585), 2009, Vol 15, Issue 2, p204
- ISSN
1352-4585
- Publication type
Article
- DOI
10.1177/1352458508098270