Chiara Stampatori scite author profile

MULTIPLE SCLEROSIS MSJ JOURNAL1258 journals.sagepub.com/home/msj BackgroundCognitive impairment (CI) is known to be present in all stages of multiple sclerosis (MS); however, the prevalence estimates vary considerably between studies, ranging from 40% to 65%. 1 The profile of CI in the overall MS population is now relatively well known, involving mainly complex attention, information processing speed, episodic memory, and executive functions. 1,2 Therefore, brief neuropsychological batteries for MS 3 and newly developed assessment tools 4 mainly focus on the assessment of these functions. However, few studies investigated the differences in the prevalence and profile of CI between the different MS disease subtypes, providing heterogeneous results. [5][6][7][8][9] Many of these studies included small clinical samples and focused mainly on relapsing remitting (RR) or progressive forms. Moreover, the association of CI with several clinical features, such as physical disability, sex, and disease duration, is not well established, since inconsistent results have been reported in the literature. [10][11][12][13] The heterogeneity of the published literature could be, at least in part, attributable to small sample size and dissimilarities in the clinical characteristics of the studies' samples. Exploring the independent effects of age, physical disability, disease duration, and disease subtype could prove central to provide a better understanding of the potential role and interaction of cognitive reserve, brain aging, and disease severity for determining CI in MS. The severity of impairment and the number of involved domains were significantly higher in SP and primary progressive multiple sclerosis (PPMS) than in CIS and RR. In multivariable logistic regression analysis, the presence of CI was significantly associated with higher Expanded Disability Status Scale (EDSS) and older age. Conclusion: CI is present in all MS subtypes since the clinical onset and its frequency is increased in the progressive forms, but these differences seem to be more associated with patient age and physical disability than to disease subtype per se.

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Multiple Sclerosis: Effects of Cognitive Rehabilitation on Structural and Functional MR Imaging Measures—An Explorative Study

Filippi

et al. 2012

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Neurological and cognitive sequelae of Covid-19: a four month follow-up

et al. 2021

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Central and peripheral nervous system involvement during acute COVID-19 is well known. Although many patients report some subjective symptoms months after the infection, the exact incidence of neurological and cognitive sequelae of COVID-19 remains to be determined. The aim of this study is to investigate if objective neurological or cognitive impairment is detectable four months after SARS-CoV-2 infection, in a group of patients who had mild–moderate COVID-19. A cohort of 120 health care workers previously affected by COVID-19 was examined 4 months after the diagnosis by means of neurological and extensive cognitive evaluation and compared to a group of 30 health care workers who did not have COVID-19 and were similar for age and co morbidities. At 4 month follow-up, 118/120 COVID-19 cases had normal neurological examination, two patients had neurological deficits. COVID-19 patients did not show general cognitive impairment at MMSE. In COVID-19 cases the number of impaired neuropsychological tests was not significantly different from non COVID-19 cases (mean 1.69 and 1 respectively, Mann–Whitney p = n.s.), as well as all the mean tests’ scores. Anxiety, stress and depression scores resulted to be significantly higher in COVID-19 than in non COVID-19 cases. The results do not support the presence of neurological deficits or cognitive impairment in this selected population of mild–moderate COVID-19 patients four months after the diagnosis. Severe emotional disorders in patients who had COVID-19 in the past are confirmed.

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Identifying the Distinct Cognitive Phenotypes in Multiple Sclerosis

et al. 2021

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IMPORTANCECognitive impairment is a common and disabling feature of multiple sclerosis (MS), but a precise characterization of cognitive phenotypes in patients with MS is lacking.OBJECTIVES To identify cognitive phenotypes in a clinical cohort of patients with MS and to characterize their clinical and magnetic resonance imaging (MRI) features. DESIGN, SETTING, AND PARTICIPANTSThis multicenter cross-sectional study consecutively screened clinically stable patients with MS and healthy control individuals at 8 MS centers in Italy from January 1, 2010, to October 31, 2019. Patients with MS and healthy control individuals who were not using psychoactive drugs and had no history of other neurological or medical disorders, learning disability, severe head trauma, and alcohol or drug abuse were enrolled. MAIN OUTCOMES AND MEASURES Participants underwent a neurological examination and a cognitive evaluation with the Rao Brief Repeatable Battery and Stroop Color and Word Test. A subgroup of participants also underwent a brain MRI examination. Latent profile analysis was used on cognitive test z scores to identify cognitive phenotypes. Linear regression and mixed-effects models were used to define clinical and MRI features of each phenotype. RESULTS A total of 1212 patients with MS (mean [SD] age, 41.1 [11.1] years; 784 women [64.7%]) and 196 healthy control individuals (mean [SD] age, 40.4 [8.6] years; 130 women [66.3%]) were analyzed in this study. Five cognitive phenotypes were identified: preserved cognition (n = 235 patients [19.4%]), mild-verbal memory/semantic fluency (n = 362 patients [29.9%]), mild-multidomain (n = 236 patients [19.5%]), severe-executive/attention (n = 167 patients [13.8%]), and severe-multidomain (n = 212 patients [17.5%]) involvement. Patients with preserved cognition and mild-verbal memory/semantic fluency were younger (mean [SD] age, 36.5 [9.8] years and 38.2 [11.1] years) and had shorter disease duration (mean [SD] 8.0 [7.3] years and 8.3 [7.6] years) compared with patients with mild-multidomain (mean [SD] age, 42.6 [11.2] years; mean [SD] disease duration, 12.8 [9.6] years; P < .001), severe-executive/attention (mean [SD] age, 42.9 [11.7] years; mean [SD] disease duration, 12.2 [9.5] years; P < .001), and severe-multidomain (mean [SD] age, 44.0 [11.0] years; mean [SD] disease duration , 13.3 [10.2] years; P < .001) phenotypes. Severe cognitive phenotypes prevailed in patients with progressive MS. At MRI evaluation, compared with those with preserved cognition, patients with mild-verbal memory/semantic fluency exhibited decreased mean (SE) hippocampal volume (5.42 [0.68] mL vs 5.13 [0.68] mL; P = .04), patients with the mild-multidomain phenotype had decreased mean (SE) cortical gray matter volume (687.69 [35.40] mL vs 662.59 [35.48] mL; P = .02), patients with severe-executive/ attention had higher mean (SE) T2-hyperintense lesion volume (51.33 [31.15] mL vs 99.69 [34.07] mL; P = .04), and patients with the severe-multidomain phenotype had extensive brain damage, with decreased volume in a...

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Neuroenhancement through cognitive training and anodal tDCS in multiple sclerosis

et al. 2015

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