Jay Mandrekar scite author profile

BACKGROUND Cortical disease has emerged as a critical aspect of the pathogenesis of multiple sclerosis, being associated with disease progression and cognitive impairment. Most studies of cortical lesions have focused on autopsy findings in patients with long-standing, chronic, progressive multiple sclerosis, and the noninflammatory nature of these lesions has been emphasized. Magnetic resonance imaging studies indicate that cortical damage occurs early in the disease. METHODS We evaluated the prevalence and character of demyelinating cortical lesions in patients with multiple sclerosis. Cortical tissues were obtained in passing during biopsy sampling of white-matter lesions. In most cases, biopsy was done with the use of stereotactic procedures to diagnose suspected tumors. Patients with sufficient cortex (138 of 563 patients screened) were evaluated for cortical demyelination. Using immunohistochemistry, we characterized cortical lesions with respect to demyelinating activity, inflammatory infiltrates, the presence of meningeal inflammation, and a topographic association between cortical demyelination and meningeal inflammation. Diagnoses were ascertained in a subgroup of 77 patients (56%) at the last follow-up visit (at a median of 3.5 years). RESULTS Cortical demyelination was present in 53 patients (38%) (104 lesions and 222 tissue blocks) and was absent in 85 patients (121 tissue blocks). Twenty-five patients with cortical demyelination had definite multiple sclerosis (81% of 31 patients who underwent long-term follow-up), as did 33 patients without cortical demyelination (72% of 46 patients who underwent long-term follow-up). In representative tissues, 58 of 71 lesions (82%) showed CD3+ T-cell infiltrates, and 32 of 78 lesions (41%) showed macrophage-associated demyelination. Meningeal inflammation was topographically associated with cortical demyelination in patients who had sufficient meningeal tissue for study. CONCLUSIONS In this cohort of patients with early-stage multiple sclerosis, cortical demyelinating lesions were frequent, inflammatory, and strongly associated with meningeal inflammation. (Funded by the National Multiple Sclerosis Society and the National Institutes of Health.)

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Clinical and pathological insights into the dynamic nature of the white matter multiple sclerosis plaque

Frischer

Weigand

Guo

et al. 2015

Annals of Neurology

583

600

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Background An extensive analysis of white matter plaques in a large sample of MS autopsies provides insights into the dynamic nature of MS pathology. Methods 120 MS cases (1220 tissue blocks) were included. Plaque types were classified according to demyelinating activity based on stringent criteria. Early-active, late-active, smoldering, inactive, and shadow plaques were distinguished. 2476 MS white matter plaques were identified. Plaque type distribution was analyzed in relation to clinical data. Findings Active plaques were most often found in early disease, whereas at later stages, smoldering, inactive and shadow plaques predominated. The presence of early-active plaques rapidly declined with disease duration. Plaque type distribution differed significantly by clinical course. The majority of plaques in acute-monophasic and RRMS were active. Among SPMS cases with attacks, all plaque types could be distinguished including active plaques, in contrast to SPMS without attacks in whom inactive plaques predominated. Smoldering plaques were frequently and almost exclusively found in progressive MS. At 47-years of age, an equilibrium was observed between active and inactive plaques, whereas smoldering plaques began to peak. Men displayed a higher proportion of smoldering plaques. Interpretation Disease duration, clinical course, age and gender contribute to the dynamic nature of white matter MS pathology. Active MS plaques predominate in acute and early RRMS and are the likely substrate of clinical attacks. Progressive MS transitions to an accumulation of smoldering plaques characterized by microglial activation and slow expansion of pre-existing plaques. Whether current MS therapeutics impact this pathological driver of disease progression remains uncertain.

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Serologic diagnosis of NMO

Waters¹,

McKeon²,

Leite³

et al. 2012

Neurology

474

394

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COMPASS 31: A Refined and Abbreviated Composite Autonomic Symptom Score

Sletten

Suárez

Low

et al. 2012

Mayo Clinic Proceedings

490

349

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Objective To develop a concise and statistically robust instrument to assess autonomic symptoms that provides clinically relevant scores of autonomic symptom severity, based on the well-established 169-item autonomic symptom profile (ASP) and its validated 85-question scoring instrument, known as composite autonomic symptom score (COMPASS). Patients and Methods We assessed the internal consistency of COMPASS using Cronbach alpha coefficients based on the ASP of 405 healthy control subjects recruited and seen in the Mayo Autonomic Disorders Center between March 1, 1995 and March 31, 2010. Applying a simplified scoring algorithm, we then used exploratory factor analysis with orthogonal rotation and Eigenvalue calculations to extract internally consistent domains and to reduce dimensionality. This was followed by expert revisions to eliminate redundant content and to retain clinically important questions, and final assessment of the new instrument. Results The new, simplified scoring algorithm alone resulted in higher Cronbach alpha values in all domains. Factor analysis revealed 7 domains with a total of 54 questions retained. Expert revisions resulted in further reduction of questions and domains with a remaining total of 31 questions in 6 domains (COMPASS 31). Measures of internal consistency were much improved compared to COMPASS. Following appropriate weighting, this instrument provides an autonomic symptom score from 0 to 100. Conclusion: COMPASS 31 is a refined, internally consistent, and markedly abbreviated quantitative measure of autonomic symptoms. It is based on the original ASP and COMPASS, applies a much simplified scoring algorithm, and is suitable for widespread use in autonomic research and practice.

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Complications of Diagnostic Cerebral Angiography: Evaluation of 19 826 Consecutive Patients¹

Kaufmann¹,

Huston²,

Mandrekar³

et al. 2007

Radiology

546

315

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Jay Mandrekar

Inflammatory Cortical Demyelination in Early Multiple Sclerosis

Clinical and pathological insights into the dynamic nature of the white matter multiple sclerosis plaque

Serologic diagnosis of NMO

COMPASS 31: A Refined and Abbreviated Composite Autonomic Symptom Score

Complications of Diagnostic Cerebral Angiography: Evaluation of 19 826 Consecutive Patients¹

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About

Jay Mandrekar

Inflammatory Cortical Demyelination in Early Multiple Sclerosis

Clinical and pathological insights into the dynamic nature of the white matter multiple sclerosis plaque

Serologic diagnosis of NMO

COMPASS 31: A Refined and Abbreviated Composite Autonomic Symptom Score

Complications of Diagnostic Cerebral Angiography: Evaluation of 19 826 Consecutive Patients1

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Complications of Diagnostic Cerebral Angiography: Evaluation of 19 826 Consecutive Patients¹