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The big takeaway from this study: "The time window of opportunity for therapeutic approaches aimed at intellectual enhancement most likely lies in the earliest disease stages." Exercise and disease-modifying treatment are known to prevent brain atrophy. Don't delay. - Dave
Neurology. 2013 Apr 10. [Epub ahead of print]
Cognitive reserve and cortical atrophy in multiple sclerosis: A longitudinal
study.
Amato MP, Razzolini L, Goretti B, Stromillo ML, Rossi F, Giorgio A, Hakiki B,
Giannini M, Pastò L, Portaccio E, De Stefano N.
From the Department of Neurology (M.P.A., L.R., B.G., B.H., M.G., L.P., E.P.),
University of Florence; Don Gnocchi Foundation (L.R., B.H., E.P.), Florence; and
Department of Neurological and Behavioural Sciences (M.L.S., F.R., A.G., N.D.S.),
University of Siena, Italy.
OBJECTIVE: To test the cognitive reserve (CR) hypothesis in the model of multiple
sclerosis (MS) by assessing the interactions among CR, brain atrophy, and
cognitive efficiency in patients with relapsing-remitting MS.
METHODS: A
Cognitive Reserve Index was calculated including education, premorbid leisure
activities, and IQ. Brain atrophy was assessed through magnetic resonance
quantitative parameters of normalized total brain volume and normalized cortical
volume. Cognitive function was measured using Rao's Brief Repeatable Battery.
RESULTS: Fifty-two patients with relapsing-remitting MS were evaluated at
baseline and 35 of them were reassessed after a 1.6-year follow-up period. At
baseline, higher CR predicted better performance on most of the Brief Repeatable
Battery tests, independent of brain atrophy and clinical and demographic
characteristics (p ≤ 0.021). An interaction between CRI and normalized cortical
volume predicted better cognitive performance on tasks of verbal memory and
attention/information processing speed (p < 0.005). However, at the follow-up
examination, progressing cortical atrophy (β = 0.45; p = 0.008) and older age (β
= -0.33; p = 0.044) were the only predictors of deteriorating cognitive
performance.
CONCLUSIONS: Our findings suggest that higher CR in individuals with
MS may mediate between cognitive performance and brain pathology. CR-related
compensation may, however, fail with progression of damage. The time window of
opportunity for therapeutic approaches aimed at intellectual enhancement most
likely lies in the earliest disease stages.
Neurology. 2013 Apr 10. [Epub ahead of print]
Cognitive reserve and cortical atrophy in multiple sclerosis: A longitudinal
study.
Amato MP, Razzolini L, Goretti B, Stromillo ML, Rossi F, Giorgio A, Hakiki B,
Giannini M, Pastò L, Portaccio E, De Stefano N.
From the Department of Neurology (M.P.A., L.R., B.G., B.H., M.G., L.P., E.P.),
University of Florence; Don Gnocchi Foundation (L.R., B.H., E.P.), Florence; and
Department of Neurological and Behavioural Sciences (M.L.S., F.R., A.G., N.D.S.),
University of Siena, Italy.
OBJECTIVE: To test the cognitive reserve (CR) hypothesis in the model of multiple
sclerosis (MS) by assessing the interactions among CR, brain atrophy, and
cognitive efficiency in patients with relapsing-remitting MS.
METHODS: A
Cognitive Reserve Index was calculated including education, premorbid leisure
activities, and IQ. Brain atrophy was assessed through magnetic resonance
quantitative parameters of normalized total brain volume and normalized cortical
volume. Cognitive function was measured using Rao's Brief Repeatable Battery.
RESULTS: Fifty-two patients with relapsing-remitting MS were evaluated at
baseline and 35 of them were reassessed after a 1.6-year follow-up period. At
baseline, higher CR predicted better performance on most of the Brief Repeatable
Battery tests, independent of brain atrophy and clinical and demographic
characteristics (p ≤ 0.021). An interaction between CRI and normalized cortical
volume predicted better cognitive performance on tasks of verbal memory and
attention/information processing speed (p < 0.005). However, at the follow-up
examination, progressing cortical atrophy (β = 0.45; p = 0.008) and older age (β
= -0.33; p = 0.044) were the only predictors of deteriorating cognitive
performance.
CONCLUSIONS: Our findings suggest that higher CR in individuals with
MS may mediate between cognitive performance and brain pathology. CR-related
compensation may, however, fail with progression of damage. The time window of
opportunity for therapeutic approaches aimed at intellectual enhancement most
likely lies in the earliest disease stages.
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