Reduced brain functional reserve and altered functional connectivity in patients with multiple sclerosis

doi:10.1093/brain/awh670

Brain Advance Access originally published online on October 26, 2005
Brain 2006 129(2):527-537; doi:10.1093/brain/awh670

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Reduced brain functional reserve and altered functional connectivity in patients with multiple sclerosis

Sarah Cader¹, Alberto Cifelli¹, Yasir Abu-Omar¹, Jacqueline Palace² and Paul M. Matthews¹

¹ Centre for Functional Magnetic Resonance Imaging of the Brain, The John Radcliffe Hospital and ² Department of Neurology, The Radcliffe Infirmary, Oxford, UK

Correspondence to: Professor Paul Matthews, Centre for Functional Magnetic Resonance Imaging of the Brain, The John Radcliffe Hospital, Headington, Oxford OX3 9DU, UK E-mail: paul{at}fmrib.ox.ac.uk

Cognitive dysfunction (affecting particularly attention andworking memory) occurs early in patients with multiple sclerosis.Previous studies have focused on identifying potentially adaptivefunctional reorganization through recruitment of new brain regionsthat could limit expression of these deficits. However, lesionstudies remind us that functional specializations in the brainmake certain brain regions necessary for a given task. We thereforehave asked whether altered functional interactions between regionsnormally recruited provide an alternative adaptive mechanismwith multiple sclerosis pathology. We used a version of then-back task to probe working memory in patients with early multiplesclerosis. We applied a functional connectivity analysis totest whether relationships between relative activations in differentbrain regions change in potentially adaptive ways with multiplesclerosis. We studied 21 patients with relapsing-remitting multiplesclerosis and 16 age- and sex-matched healthy controls with3T functional MRI. The two groups performed equally well onthe task. Task-related activations were found in similar regionsfor patients and controls. However, patients showed relativelyreduced activation in the superior frontal and anterior cingulategyri (P > 0.01). Patients also showed a variable, but generallysubstantially smaller increase in activation than healthy controlswith greater task complexity, depending on the specific brainregion assessed (P < 0.001). Functional connectivity analysisdefined further differences not apparent from the univariatecontrast of the task-associated activation patterns. Controlsubjects showed significantly greater correlations between rightdorsolateral prefrontal and superior frontal/anterior cingulateactivations (P < 0.05). Patients showed correlations betweenactivations in the right and left prefrontal cortices, althoughthis relationship was not significant in healthy controls (P< 0.05). We interpret these results as showing that, whilecognitive processing in the task appears to be performed usingsimilar brain regions in patients and controls, the patientshave reduced functional reserve for cognition relevant to memory.Functional connectivity analysis suggests that altered inter-hemisphericinteractions between dorsal and lateral prefrontal regions mayprovide an adaptive mechanism that could limit clinical expressionof the disease distinct from recruitment of novel processingregions. Together, these results suggest that therapeutic enhancementof the coherence of interactions between brain regions normallyrecruited (functional enhancement), as well as recruitment ofalternative areas or use of complementary cognitive strategies(both forms of adaptive functional change), may limit expressionof cognitive impairments in multiple sclerosis.

Key Words: fMRI; multiple sclerosis; cognition

Abbreviations: fMRI = functional MRI; ROI = region of interest; VWM = verbal working memory

Received April 19, 2005. Revised August 29, 2005. Accepted September 28, 2005.

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