Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study

BACKGROUND: Pediatric multiple sclerosis (MS) is a rare disorder with significant consequences. Quantitative MRI measurements may provide significant insights, however multicenter collaborative studies are needed given the small numbers of subjects. The goal of this study is to demonstrate feasibili...

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Autores principales: Chitnis, Tanuja, Guttmann, Charles R, Zaitsev, Alexander, Musallam, Alexander, Weinstock-Guttmann, Bianca, Yeh, Ann, Rodriguez, Moses, Ness, Jayne, Gorman, Mark P, Healy, Brian C, Kuntz, Nancy, Chabas, Dorothee, Strober, Jonathan B, Waubant, Emmanuelle, Krupp, Lauren, Pelletier, Daniel, Erickson, Bradley, Bergsland, Niels, Zivadinov, Robert
Formato: Online Artículo Texto
Lenguaje:English
Publicado: BioMed Central 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3832402/
https://www.ncbi.nlm.nih.gov/pubmed/24225378
http://dx.doi.org/10.1186/1471-2377-13-173
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author Chitnis, Tanuja
Guttmann, Charles R
Zaitsev, Alexander
Musallam, Alexander
Weinstock-Guttmann, Bianca
Yeh, Ann
Rodriguez, Moses
Ness, Jayne
Gorman, Mark P
Healy, Brian C
Kuntz, Nancy
Chabas, Dorothee
Strober, Jonathan B
Waubant, Emmanuelle
Krupp, Lauren
Pelletier, Daniel
Erickson, Bradley
Bergsland, Niels
Zivadinov, Robert
author_facet Chitnis, Tanuja
Guttmann, Charles R
Zaitsev, Alexander
Musallam, Alexander
Weinstock-Guttmann, Bianca
Yeh, Ann
Rodriguez, Moses
Ness, Jayne
Gorman, Mark P
Healy, Brian C
Kuntz, Nancy
Chabas, Dorothee
Strober, Jonathan B
Waubant, Emmanuelle
Krupp, Lauren
Pelletier, Daniel
Erickson, Bradley
Bergsland, Niels
Zivadinov, Robert
author_sort Chitnis, Tanuja
collection PubMed
description BACKGROUND: Pediatric multiple sclerosis (MS) is a rare disorder with significant consequences. Quantitative MRI measurements may provide significant insights, however multicenter collaborative studies are needed given the small numbers of subjects. The goal of this study is to demonstrate feasibility and evaluate lesion volume (LV) characteristics in a multicenter cohort of children with MS. METHODS: A common MRI-scanning guideline was implemented at six member sites of the U.S. Network of Pediatric MS Centers of Excellence. We included in this study the first ten scans performed at each site on patients meeting the following inclusion criteria: pediatric RRMS within 3 years of disease onset, examination within 1 month of MRI and no steroids 1 month prior to MRI. We quantified T2 number, T2-LV and individual lesion size in a total of 53 MRIs passing quality control procedures and assessed gadolinium-enhancing lesion number and LV in 55 scans. We studied MRI measures according to demographic features including age, race, ethnicity and disability scores, controlling for disease duration and treatment duration using negative binomial regression and linear regression. RESULTS: The mean number of T2 lesions was 24.30 ± 19.68 (range:1–113) and mean gadolinium-enhancing lesion count was 1.85 ± 5.84, (range:0–32). Individual lesion size ranged from 14.31 to 55750.60 mm(3). Non-white subjects had higher T2–LV (unadjusted p(T2-LV) = 0.028; adjusted p(T2-LV) = 0.044), and maximal individual T2-LV (unadjusted p(Max) = 0.007; adjusted p(Max) = 0.011) than white patients. We also found a trend toward larger mean lesion size in males than females (p = 0.07). CONCLUSION: Assessment of MRI lesion LV characteristics is feasible in a multicenter cohort of children with MS.
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spelling pubmed-38324022013-11-19 Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study Chitnis, Tanuja Guttmann, Charles R Zaitsev, Alexander Musallam, Alexander Weinstock-Guttmann, Bianca Yeh, Ann Rodriguez, Moses Ness, Jayne Gorman, Mark P Healy, Brian C Kuntz, Nancy Chabas, Dorothee Strober, Jonathan B Waubant, Emmanuelle Krupp, Lauren Pelletier, Daniel Erickson, Bradley Bergsland, Niels Zivadinov, Robert BMC Neurol Research Article BACKGROUND: Pediatric multiple sclerosis (MS) is a rare disorder with significant consequences. Quantitative MRI measurements may provide significant insights, however multicenter collaborative studies are needed given the small numbers of subjects. The goal of this study is to demonstrate feasibility and evaluate lesion volume (LV) characteristics in a multicenter cohort of children with MS. METHODS: A common MRI-scanning guideline was implemented at six member sites of the U.S. Network of Pediatric MS Centers of Excellence. We included in this study the first ten scans performed at each site on patients meeting the following inclusion criteria: pediatric RRMS within 3 years of disease onset, examination within 1 month of MRI and no steroids 1 month prior to MRI. We quantified T2 number, T2-LV and individual lesion size in a total of 53 MRIs passing quality control procedures and assessed gadolinium-enhancing lesion number and LV in 55 scans. We studied MRI measures according to demographic features including age, race, ethnicity and disability scores, controlling for disease duration and treatment duration using negative binomial regression and linear regression. RESULTS: The mean number of T2 lesions was 24.30 ± 19.68 (range:1–113) and mean gadolinium-enhancing lesion count was 1.85 ± 5.84, (range:0–32). Individual lesion size ranged from 14.31 to 55750.60 mm(3). Non-white subjects had higher T2–LV (unadjusted p(T2-LV) = 0.028; adjusted p(T2-LV) = 0.044), and maximal individual T2-LV (unadjusted p(Max) = 0.007; adjusted p(Max) = 0.011) than white patients. We also found a trend toward larger mean lesion size in males than females (p = 0.07). CONCLUSION: Assessment of MRI lesion LV characteristics is feasible in a multicenter cohort of children with MS. BioMed Central 2013-11-13 /pmc/articles/PMC3832402/ /pubmed/24225378 http://dx.doi.org/10.1186/1471-2377-13-173 Text en Copyright © 2013 Chitnis et al.; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Chitnis, Tanuja
Guttmann, Charles R
Zaitsev, Alexander
Musallam, Alexander
Weinstock-Guttmann, Bianca
Yeh, Ann
Rodriguez, Moses
Ness, Jayne
Gorman, Mark P
Healy, Brian C
Kuntz, Nancy
Chabas, Dorothee
Strober, Jonathan B
Waubant, Emmanuelle
Krupp, Lauren
Pelletier, Daniel
Erickson, Bradley
Bergsland, Niels
Zivadinov, Robert
Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study
title Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study
title_full Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study
title_fullStr Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study
title_full_unstemmed Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study
title_short Quantitative MRI analysis in children with multiple sclerosis: a multicenter feasibility pilot study
title_sort quantitative mri analysis in children with multiple sclerosis: a multicenter feasibility pilot study
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3832402/
https://www.ncbi.nlm.nih.gov/pubmed/24225378
http://dx.doi.org/10.1186/1471-2377-13-173
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