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Despite gray matter atrophy in cortical and subcortical regions has been related to cognitive impairment in multiple sclerosis, only a few studies evaluated its predictive value for alterations in the long-term. We aimed to determine early predictors of cognitive status after 20 years of multiple sclerosis. In this longitudinal retrospective study, participants underwent a 1.5T MRI scanning at diagnosis (T0) and after two years (T2), which included the evaluation of regional gray matter volume loss patterns. All individuals with multiple sclerosis underwent a comprehensive neuropsychological assessment at the end of the study and were classified considering their global and specific cognitive domains status (memory, attention/information processing speed, executive functioning). Clinical and MRI characteristics were assessed as predictors of long-term cognitive impairment. Analysis of covariance, t-test, unadjusted and adjusted (for age, sex, disease duration, volume of white matter lesions, volume of cortical lesions) logistic regression were conducted. 175 people with multiple sclerosis (mean±SD age at the end of study = 47.7±9.4 years; 118 females) clinically followed for 20 years from onset (mean±SD = 19.9±5.1) were evaluated. At the end of the study, 81 (47%) were classified as cognitively impaired: 38 as mildly impaired (22%), and 43 as severely impaired (25%). In particular, 46 were impaired in memory (27%), 66 were impaired in attention/information processing speed (38%), and 71 were impaired in executive functioning (41%). Regression models identified precuneus (adjusted odds ratio = 3.37; P < 0.001), insula (adjusted odds ratio = 2.33; P = 0.036), parahippocampal gyrus (adjusted odds ratio = 2.07; P < 0.001), and cingulate (adjusted odds ratio = 1.81; P = 0.009) as the most associated regions with global cognitive impairment and domains-specific cognitive alterations after a mean of 20 years of multiple sclerosis, after adjusting for demographic and clinical variables as well as for focal white matter and gray matter damage. Early gray matter volume loss of specific cortical and deep gray matter regions predicts global and domain cognitive alterations after 20 years from multiple sclerosis diagnosis.
Despite gray matter atrophy in cortical and subcortical regions has been related to cognitive impairment in multiple sclerosis, only a few studies evaluated its predictive value for alterations in the long-term. We aimed to determine early predictors of cognitive status after 20 years of multiple sclerosis. In this longitudinal retrospective study, participants underwent a 1.5T MRI scanning at diagnosis (T0) and after two years (T2), which included the evaluation of regional gray matter volume loss patterns. All individuals with multiple sclerosis underwent a comprehensive neuropsychological assessment at the end of the study and were classified considering their global and specific cognitive domains status (memory, attention/information processing speed, executive functioning). Clinical and MRI characteristics were assessed as predictors of long-term cognitive impairment. Analysis of covariance, t-test, unadjusted and adjusted (for age, sex, disease duration, volume of white matter lesions, volume of cortical lesions) logistic regression were conducted. 175 people with multiple sclerosis (mean±SD age at the end of study = 47.7±9.4 years; 118 females) clinically followed for 20 years from onset (mean±SD = 19.9±5.1) were evaluated. At the end of the study, 81 (47%) were classified as cognitively impaired: 38 as mildly impaired (22%), and 43 as severely impaired (25%). In particular, 46 were impaired in memory (27%), 66 were impaired in attention/information processing speed (38%), and 71 were impaired in executive functioning (41%). Regression models identified precuneus (adjusted odds ratio = 3.37; P < 0.001), insula (adjusted odds ratio = 2.33; P = 0.036), parahippocampal gyrus (adjusted odds ratio = 2.07; P < 0.001), and cingulate (adjusted odds ratio = 1.81; P = 0.009) as the most associated regions with global cognitive impairment and domains-specific cognitive alterations after a mean of 20 years of multiple sclerosis, after adjusting for demographic and clinical variables as well as for focal white matter and gray matter damage. Early gray matter volume loss of specific cortical and deep gray matter regions predicts global and domain cognitive alterations after 20 years from multiple sclerosis diagnosis.
Background/Objectives. Social cognition (SC), which implies the emotional and intellectual understanding of oneself and others, is an important facet of neuropsychological functioning concurrently to academic cognition (AC), which concerns non-social abilities (memory, language…). In relapsing-remitting multiple sclerosis (RRMS), it is not clear whether a cognitive decline occurs in both SC and AC nor whether a link exists between these two cognitive domains. The objective of the present longitudinal study was to conduct an extensive examination of both AC and SC in RRMS to document a 2-year evolution and to look for potential correlations between AC and SC. Methods. The neuropsychological results (AC and SC) of 48 RRMS patients obtained in clinical practice were retrospectively considered; 38 of the patients (30 females) were assessed again about 2 years later. Non-parametric tests were applied to test the intra-group cognitive evolution (Wilcoxon) and the link between AC and SC evolution (Spearman). Results. Whereas AC showed a stability or an improvement of performances during the retest, SC presented the reverse pattern, with a stability or a significant decline in facial emotion (recognition and discrimination) and humor perception. No significant statistical correlation was found between the significant modification of AC and SC during follow-up. Conclusions. The short-term deleterious evolution observed selectively for SC in the present study suggests that SC should be selected as a cognitive marker for RRMS follow-up, and that extensive examination may be preferred to investigate specific SC changes.
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