Recovery from an acute relapse is associated with changes in motor resting-state connectivity in multiple sclerosis

AbstractMultiple sclerosis (MS) is an inflammatory disease of the central nervous system, resulting in physical, cognitive and affective disturbances, with notable declines in the ability to learn and retain new information. In this study, we examined if higher levels of physical activity in MS individuals were associated with an increased resting-state connectivity of the hippocampus and cortex, resulting in better performance on a task of episodic memory. Forty-five individuals with a clinically definite diagnosis of MS were recruited for the study. Consistent with previous reports, hippocampus was functionally connected to the posteromedial cortex, parahippocampal gyrus, superior frontal gyrus, and the medial frontal cortex. Higher levels of physical activity in MS patients were associated with an increased coherence between the hippocampus and the posteromedial cortex (PMC). The increased connectivity between these two regions, in turn, was predictive of better relational memory, such that MS patients who showed an increased coherence between the left (not right) hippocampus and the PMC also showed better relational memory. Results of the study are interpreted in light of the challenge of disentangling effects of physical activity from effects of disease severity and its neuropathological correlates. (JINS, 2011, 17, 986–997)

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Expanded functional coupling of subcortical nuclei with the motor resting-state network in multiple sclerosis

Multiple Sclerosis Journal ◽

10.1177/1352458512460416 ◽

2012 ◽

Vol 19 (5) ◽

pp. 559-566 ◽

Cited By ~ 32

Author(s):

Anne-Marie Dogonowski ◽

Hartwig R Siebner ◽

Per Soelberg Sørensen ◽

Xingchen Wu ◽

Bharat Biswal ◽

...

Keyword(s):

Multiple Sclerosis ◽

Basal Ganglia ◽

Functional Connectivity ◽

Resting State ◽

Functional Coupling ◽

Interaction Patterns ◽

Motor Network ◽

Fmri Session ◽

Subcortical Nuclei ◽

Resting State Connectivity

Background: Multiple sclerosis (MS) impairs signal transmission along cortico-cortical and cortico-subcortical connections, affecting functional integration within the motor network. Functional magnetic resonance imaging (fMRI) during motor tasks has revealed altered functional connectivity in MS, but it is unclear how much motor disability contributed to these abnormal functional interaction patterns. Objective: To avoid any influence of impaired task performance, we examined disease-related changes in functional motor connectivity in MS at rest. Methods: A total of 42 patients with MS and 30 matched controls underwent a 20-minute resting-state fMRI session at 3 Tesla. Independent component analysis was applied to the fMRI data to identify disease-related changes in motor resting-state connectivity. Results: Patients with MS showed a spatial expansion of motor resting-state connectivity in deep subcortical nuclei but not at the cortical level. The anterior and middle parts of the putamen, adjacent globus pallidus, anterior and posterior thalamus and the subthalamic region showed stronger functional connectivity with the motor network in the MS group compared with controls. Conclusion: MS is characterised by more widespread motor connectivity in the basal ganglia while cortical motor resting-state connectivity is preserved. The expansion of subcortical motor resting-state connectivity in MS indicates less efficient funnelling of neural processing in the executive motor cortico-basal ganglia-thalamo-cortical loops.

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