Your search keyword '"Jeroen J. G. Geurts"' showing total 7 results

1. Axon-Myelin Unit Blistering as Early Event in MS Normal Appearing White Matter

Author

Antonio Luchicchi, Herman L. Offerhaus, Laura Perna, Anne‐Marie van Dam, Peter K. Stys, Geert J. Schenk, Jeroen J. G. Geurts, Bert ‘t Hart, Irene Frigerio, MESA+ Institute, Optical Sciences, Anatomy and neurosciences, AMS - Ageing & Vitality, AMS - Tissue Function & Regeneration, Amsterdam Neuroscience - Neurodegeneration, and Amsterdam Neuroscience - Neuroinfection & -inflammation

Subjects

0301 basic medicine, Adult, Male, Pathology, medicine.medical_specialty, Multiple Sclerosis, UT-Hybrid-D, Neuroimaging, Brain damage, Biology, Sodium Channels, Pathogenesis, White matter, 03 medical and health sciences, Myelin, 0302 clinical medicine, Alzheimer Disease, Ranvier's Nodes, medicine, Humans, Axon, Research Articles, Myelin Sheath, Aged, Aged, 80 and over, Myelin-associated glycoprotein, Multiple sclerosis, Glutamate receptor, Middle Aged, medicine.disease, Lipid Metabolism, DNA Fingerprinting, Immunohistochemistry, White Matter, Axons, Molecular Imaging, Myelin-Associated Glycoprotein, 030104 developmental biology, medicine.anatomical_structure, Neurology, Receptors, Glutamate, nervous system, Female, Neurology (clinical), medicine.symptom, 030217 neurology & neurosurgery, Research Article

Abstract

Objective Multiple sclerosis (MS) is a chronic neuroinflammatory and neurodegenerative disease of unknown etiology. Although the prevalent view regards a CD4+ -lymphocyte autoimmune reaction against myelin at the root of the disease, recent studies propose autoimmunity as a secondary reaction to idiopathic brain damage. To gain knowledge about this possibility we investigated the presence of axonal and myelinic morphological alterations which could implicate imbalance of axon-myelin units as primary event in MS pathogenesis. Methods Using high resolution imaging histological brain specimens from MS patients and non-neurological/non-MS controls, we explored molecular changes underpinning imbalanced interaction between axon and myelin in normal appearing white matter (NAWM), a region characterized by normal myelination and absent inflammatory activity. Results In MS brains, we detected blister-like swellings formed by myelin detachment from axons, which were substantially less frequently retrieved in non-neurological/non-MS controls. Swellings in MS NAWM presented altered glutamate receptor expression, myelin associated glycoprotein (MAG) distribution and lipid biochemical composition of myelin sheaths. Changes in tethering protein expression, widening of nodes of Ranvier and altered distribution of sodium channels in nodal regions of otherwise normally myelinated axons were also present in MS NAWM. Finally, we demonstrate a significant increase, compared with controls, in citrullinated proteins in myelin of MS cases, pointing toward biochemical modifications that may amplify the immunogenicity of MS myelin. Interpretation Collectively, the impaired interaction of myelin and axons potentially leads to myelin disintegration. Conceptually, the ensuing release of (post-translationally modified) myelin antigens may elicit a subsequent immune attack in MS. This article is protected by copyright. All rights reserved.

Published

2021

2. Cortical pathology in multiple sclerosis detected by the T1/T2-weighted ratio from routine magnetic resonance imaging

Author

Achim Berthele, Laura E. Jonkman, Mark Mühlau, Jan S. Kirschke, Roel Klaver, Ruthger Righart, Dorothea Buck, Jeroen J. G. Geurts, Claus Zimmer, Viola Biberacher, Bernhard Hemmer, and Paul Schmidt

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, Clinically isolated syndrome, Expanded Disability Status Scale, medicine.diagnostic_test, business.industry, Multiple sclerosis, Magnetic resonance imaging, medicine.disease, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, medicine.anatomical_structure, Neurology, Cerebral cortex, Cortex (anatomy), Posterior cingulate, medicine, Neurology (clinical), business, 030217 neurology & neurosurgery, Preclinical imaging

Abstract

ObjectiveIn multiple sclerosis, neuropathological studies have shown widespread changes in the cerebral cortex. In vivo imaging is critical, because the histopathological substrate of most measurements is unknown. MethodsUsing a novel magnetic resonance imaging analysis technique, based on the ratio of T1- and T2-weighted signal intensities, we studied the cerebral cortex of a large cohort of patients in early stages of multiple sclerosis. A total of 168 patients with clinically isolated syndrome or relapsing-remitting multiple sclerosis (Expanded Disability Status Scale: median=1, range=0-3.5) and 80 age- and sex-matched healthy controls were investigated. We also searched for the histopathological substrate of the T1/T2-weighted ratio by combining postmortem imaging and histopathology in 9 multiple sclerosis brain donors. ResultsPatients showed lower T1/T2-weighted ratio values in parietal and occipital areas. The 4 most significant clusters appeared in the medial occipital and posterior cingulate cortex (each left and right). The decrease of the T1/T2-weighted ratio in the posterior cingulate was related to performance in attention. Analysis of the T1/T2-weighted ratio values of postmortem imaging yielded a strong correlation with dendrite density but none of the other parameters including myelin. InterpretationThe T1/T2-weighted ratio decreases in early stages of multiple sclerosis in a widespread manner, with a preponderance of posterior areas and with a contribution to attentional performance;it seems to reflect dendrite pathology. As the method is broadly available and applicable to available clinical scans, we believe that it is a promising candidate for studying and monitoring cortical pathology or therapeutic effects in multiple sclerosis. Ann Neurol 2017;82:519-529

Published

2017

3. Complement C1q-C3-associated synaptic changes in multiple sclerosis hippocampus

Author

Valeria Ramaglia, Jeroen J. G. Geurts, Corbert G. van Eden, Evert-Jan Kooi, Frank Baas, Inge Huitinga, Stefan M. Gold, Janske G. P. Willems, and Iliana Michailidou

Subjects

Microglia, Multiple sclerosis, Central nervous system, Biology, medicine.disease, Complement system, medicine.anatomical_structure, nervous system, Neurology, medicine, Demyelinating disease, Hippocampus (mythology), Neurology (clinical), Alzheimer's disease, Neuroscience, Complement C1q

Abstract

OBJECTIVE: Multiple sclerosis (MS) is a demyelinating disease of the central nervous system, leading to memory impairment in up to 65% of patients. Memory dysfunction in MS has been associated with loss of synapses in the hippocampus, but its molecular basis is unknown. Accumulating evidence suggests that components of the complement system, C1q and C3, can mediate elimination of synapses. METHODS: To investigate the involvement of complement in synaptic changes in MS, gene and protein expression and localization of C1q and C3 were analyzed in relation to neuropathological changes in myelinated and demyelinated hippocampi from postmortem MS brains. Findings were compared to hippocampi of Alzheimer disease (AD) and non-neurological controls. RESULTS: C1q expression and C3 activation were increased in myelinated and demyelinated MS hippocampi, mainly in the CA3/2 and CA1 subfields, which also showed a marked decrease in synaptic density and increased neuronal staining for the mitochondrial heat shock protein 70 (mtHSP70) stress marker. Neurons were the major source of C1q mRNA. C1q protein and activated C3 localized at synapses within human leukocyte antigen-positive cell processes and lysosomes, suggesting engulfment of complement-tagged synapses by microglia. A significant association (p

Published

2015

4. Complement C1q-C3-associated synaptic changes in multiple sclerosis hippocampus

Author

Iliana, Michailidou, Janske G P, Willems, Evert-Jan, Kooi, Corbert, van Eden, Stefan M, Gold, Jeroen J G, Geurts, Frank, Baas, Inge, Huitinga, and Valeria, Ramaglia

Subjects

Adult, Aged, 80 and over, Male, Multiple Sclerosis, Complement C1q, Cell Count, Complement C3, Tissue Banks, Middle Aged, Hippocampus, Alzheimer Disease, Synapses, Humans, Female, RNA, Messenger, Aged

Abstract

Multiple sclerosis (MS) is a demyelinating disease of the central nervous system, leading to memory impairment in up to 65% of patients. Memory dysfunction in MS has been associated with loss of synapses in the hippocampus, but its molecular basis is unknown. Accumulating evidence suggests that components of the complement system, C1q and C3, can mediate elimination of synapses.To investigate the involvement of complement in synaptic changes in MS, gene and protein expression and localization of C1q and C3 were analyzed in relation to neuropathological changes in myelinated and demyelinated hippocampi from postmortem MS brains. Findings were compared to hippocampi of Alzheimer disease (AD) and non-neurological controls.C1q expression and C3 activation were increased in myelinated and demyelinated MS hippocampi, mainly in the CA3/2 and CA1 subfields, which also showed a marked decrease in synaptic density and increased neuronal staining for the mitochondrial heat shock protein 70 (mtHSP70) stress marker. Neurons were the major source of C1q mRNA. C1q protein and activated C3 localized at synapses within human leukocyte antigen-positive cell processes and lysosomes, suggesting engulfment of complement-tagged synapses by microglia. A significant association (p 0.0001) between the density of C1q and synaptophysin-positive synapses or mtHSP70 was seen in myelinated MS hippocampi, further pointing toward a link between the complement pathway and synaptic changes. In contrast to AD, MS hippocampi were consistently negative for the terminal complement activation complex C5b9.These data support a role for the C1q-C3 complement axis in synaptic alterations in the MS hippocampus.

Published

2014

5. Is progressive multiple sclerosis a gray matter disease?

Author

Jeroen J. G. Geurts

Subjects

Progressive multiple sclerosis, Pathology, medicine.medical_specialty, medicine.diagnostic_test, business.industry, Central nervous system, Magnetic resonance imaging, Disease, medicine.disease, Gray (unit), Atrophy, medicine.anatomical_structure, Text mining, Neurology, Cerebral cortex, medicine, Neurology (clinical), business

Published

2008

6. Long-interval T2-weighted subtraction magnetic resonance imaging: a powerful new outcome measure in multiple sclerosis trials

Author

Bastiaan, Moraal, Ivo J, van den Elskamp, Dirk L, Knol, Bernard M J, Uitdehaag, Jeroen J G, Geurts, Hugo, Vrenken, Petra J W, Pouwels, Ronald A, van Schijndel, Dominik S, Meier, Charles R G, Guttmann, and Frederik, Barkhof

Subjects

Adult, Male, Sirolimus, Multiple Sclerosis, Dose-Response Relationship, Drug, Brain, Gadolinium, Middle Aged, Magnetic Resonance Imaging, Statistics, Nonparametric, Double-Blind Method, Outcome Assessment, Health Care, Image Processing, Computer-Assisted, Humans, Female, Longitudinal Studies, Protein Kinase Inhibitors

Abstract

To compare long-interval T2-weighted subtraction (T2w-Sub) imaging with monthly gadolinium-enhanced T1-weighted (Gd-T1w) imaging for (1) detection of active lesions, (2) assessment of treatment efficacy, and (3) statistical power, in a multiple sclerosis (MS), phase 2, clinical trial setting.Magnetic resonance imaging (MRI) data over 9 months from 120 patients (61 treatment, 59 placebo) from the oral temsirolimus trial were used. T2w-Sub images were scored for active lesions, independent of the original reading of the monthly Gd-T1w images. Treatment efficacy was evaluated using the nonparametric Mann-Whitney U test, and parametric negative binomial (NB)-regression and power calculations were conducted.Datasets from 116 patients (58 treatment, 58 placebo) were evaluated. The mean number of T2w-Sub lesions in the treatment group was 3.0 (+/-4.6) versus 5.9 (+/-8.8) for placebo; the mean cumulative number of new Gd-T1w lesions in the treatment group was 5.5(+/-9.1) versus 9.1(+/-17.2) for placebo. T2w-Sub imaging showed increased power to assess treatment efficacy compared with Gd-T1w imaging, when evaluated by Mann-Whitney U test (p = 0.017 vs p = 0.177), or NB-regression without (p = 0.011 vs p = 0.092) or with baseline adjustment (p0.001 vs p = 0.002). Depending on the magnitude of the simulated treatment effect, sample size calculations showed reductions of 22 to 34% in the number of patients (translating into reductions of 81-83% in the number of MRI scans) needed to detect a significant treatment effect in favor of T2w-Sub imaging.Compared with monthly Gd-T1w imaging, long-interval T2w-Sub MRI exhibited increased power to assess treatment efficacy, and could greatly increase the cost-effectiveness of phase 2 MS trials by limiting the number of patients, contrast injections, and MRI scans needed.

Published

2010

7. Is progressive multiple sclerosis a gray matter disease?

Author

Jeroen J G, Geurts

Subjects

Central Nervous System, Cerebral Cortex, Neurons, Time Factors, Disease Progression, Humans, Atrophy, Multiple Sclerosis, Chronic Progressive, Magnetic Resonance Imaging, Nerve Fibers, Myelinated

Published

2008