Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.

Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.

A number of promising experimental therapies for Duchenne muscular dystrophy (DMD) are emerging. Clinical trials currently rely on invasive biopsies or motivation-dependent functional tests to assess outcome. Quantitative muscle magnetic resonance imaging (MRI) could offer a valuable alternative and...

Full description

Bibliographic Details
Main Authors: Valeria Ricotti, Matthew R B Evans, Christopher D J Sinclair, Jordan W Butler, Deborah A Ridout, Jean-Yves Hogrel, Ahmed Emira, Jasper M Morrow, Mary M Reilly, Michael G Hanna, Robert L Janiczek, Paul M Matthews, Tarek A Yousry, Francesco Muntoni, John S Thornton
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2016-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC5029878?pdf=render
id doaj-19bd8f41fda140849f988d7494cfbc4e
record_format Article
spelling doaj-19bd8f41fda140849f988d7494cfbc4e2020-11-25T01:18:08ZengPublic Library of Science (PLoS)PLoS ONE1932-62032016-01-01119e016254210.1371/journal.pone.0162542Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.Valeria RicottiMatthew R B EvansChristopher D J SinclairJordan W ButlerDeborah A RidoutJean-Yves HogrelAhmed EmiraJasper M MorrowMary M ReillyMichael G HannaRobert L JaniczekPaul M MatthewsTarek A YousryFrancesco MuntoniJohn S ThorntonA number of promising experimental therapies for Duchenne muscular dystrophy (DMD) are emerging. Clinical trials currently rely on invasive biopsies or motivation-dependent functional tests to assess outcome. Quantitative muscle magnetic resonance imaging (MRI) could offer a valuable alternative and permit inclusion of non-ambulant DMD subjects. The aims of our study were to explore the responsiveness of upper-limb MRI muscle-fat measurement as a non-invasive objective endpoint for clinical trials in non-ambulant DMD, and to investigate the relationship of these MRI measures to those of muscle force and function.15 non-ambulant DMD boys (mean age 13.3 y) and 10 age-gender matched healthy controls (mean age 14.6 y) were recruited. 3-Tesla MRI fat-water quantification was used to measure forearm muscle fat transformation in non-ambulant DMD boys compared with healthy controls. DMD boys were assessed at 4 time-points over 12 months, using 3-point Dixon MRI to measure muscle fat-fraction (f.f.). Images from ten forearm muscles were segmented and mean f.f. and cross-sectional area recorded. DMD subjects also underwent comprehensive upper limb function and force evaluation.Overall mean baseline forearm f.f. was higher in DMD than in healthy controls (p<0.001). A progressive f.f. increase was observed in DMD over 12 months, reaching significance from 6 months (p<0.001, n = 7), accompanied by a significant loss in pinch strength at 6 months (p<0.001, n = 9) and a loss of upper limb function and grip force observed over 12 months (p<0.001, n = 8).These results support the use of MRI muscle f.f. as a biomarker to monitor disease progression in the upper limb in non-ambulant DMD, with sensitivity adequate to detect group-level change over time intervals practical for use in clinical trials. Clinical validity is supported by the association of the progressive fat transformation of muscle with loss of muscle force and function.http://europepmc.org/articles/PMC5029878?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Valeria Ricotti
Matthew R B Evans
Christopher D J Sinclair
Jordan W Butler
Deborah A Ridout
Jean-Yves Hogrel
Ahmed Emira
Jasper M Morrow
Mary M Reilly
Michael G Hanna
Robert L Janiczek
Paul M Matthews
Tarek A Yousry
Francesco Muntoni
John S Thornton
spellingShingle Valeria Ricotti
Matthew R B Evans
Christopher D J Sinclair
Jordan W Butler
Deborah A Ridout
Jean-Yves Hogrel
Ahmed Emira
Jasper M Morrow
Mary M Reilly
Michael G Hanna
Robert L Janiczek
Paul M Matthews
Tarek A Yousry
Francesco Muntoni
John S Thornton
Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.
PLoS ONE
author_facet Valeria Ricotti
Matthew R B Evans
Christopher D J Sinclair
Jordan W Butler
Deborah A Ridout
Jean-Yves Hogrel
Ahmed Emira
Jasper M Morrow
Mary M Reilly
Michael G Hanna
Robert L Janiczek
Paul M Matthews
Tarek A Yousry
Francesco Muntoni
John S Thornton
author_sort Valeria Ricotti
title Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.
title_short Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.
title_full Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.
title_fullStr Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.
title_full_unstemmed Upper Limb Evaluation in Duchenne Muscular Dystrophy: Fat-Water Quantification by MRI, Muscle Force and Function Define Endpoints for Clinical Trials.
title_sort upper limb evaluation in duchenne muscular dystrophy: fat-water quantification by mri, muscle force and function define endpoints for clinical trials.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2016-01-01
description A number of promising experimental therapies for Duchenne muscular dystrophy (DMD) are emerging. Clinical trials currently rely on invasive biopsies or motivation-dependent functional tests to assess outcome. Quantitative muscle magnetic resonance imaging (MRI) could offer a valuable alternative and permit inclusion of non-ambulant DMD subjects. The aims of our study were to explore the responsiveness of upper-limb MRI muscle-fat measurement as a non-invasive objective endpoint for clinical trials in non-ambulant DMD, and to investigate the relationship of these MRI measures to those of muscle force and function.15 non-ambulant DMD boys (mean age 13.3 y) and 10 age-gender matched healthy controls (mean age 14.6 y) were recruited. 3-Tesla MRI fat-water quantification was used to measure forearm muscle fat transformation in non-ambulant DMD boys compared with healthy controls. DMD boys were assessed at 4 time-points over 12 months, using 3-point Dixon MRI to measure muscle fat-fraction (f.f.). Images from ten forearm muscles were segmented and mean f.f. and cross-sectional area recorded. DMD subjects also underwent comprehensive upper limb function and force evaluation.Overall mean baseline forearm f.f. was higher in DMD than in healthy controls (p<0.001). A progressive f.f. increase was observed in DMD over 12 months, reaching significance from 6 months (p<0.001, n = 7), accompanied by a significant loss in pinch strength at 6 months (p<0.001, n = 9) and a loss of upper limb function and grip force observed over 12 months (p<0.001, n = 8).These results support the use of MRI muscle f.f. as a biomarker to monitor disease progression in the upper limb in non-ambulant DMD, with sensitivity adequate to detect group-level change over time intervals practical for use in clinical trials. Clinical validity is supported by the association of the progressive fat transformation of muscle with loss of muscle force and function.
url http://europepmc.org/articles/PMC5029878?pdf=render
work_keys_str_mv AT valeriaricotti upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT matthewrbevans upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT christopherdjsinclair upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT jordanwbutler upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT deboraharidout upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT jeanyveshogrel upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT ahmedemira upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT jaspermmorrow upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT marymreilly upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT michaelghanna upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT robertljaniczek upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT paulmmatthews upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT tarekayousry upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT francescomuntoni upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
AT johnsthornton upperlimbevaluationinduchennemusculardystrophyfatwaterquantificationbymrimuscleforceandfunctiondefineendpointsforclinicaltrials
_version_ 1725143406971191296

Similar Items