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RESEARCH PRODUCT
The Relationship between Gray Matter Quantitative MRI and Disability in Secondary Progressive Multiple Sclerosis
Helmuth SteinmetzFrauke ZippMarlies WagnerRené-maxime GracienAlina JurcoaneSarah C. ReitzStephanie-michelle HofJohannes C. KleinJohannes C. KleinChristoph MayerAmgad DrobyRalf DeichmannElke HattingenVinzenz FleischerSteffen Volzsubject
Central Nervous SystemMalePathologyPhysiologylcsh:MedicinePathology and Laboratory MedicineNervous SystemBrain mappingDiagnostic Radiology030218 nuclear medicine & medical imaging0302 clinical medicineThalamusMedicine and Health SciencesRelaxation TimeMedicineGray Matterlcsh:ScienceCerebrospinal FluidCerebral CortexMultidisciplinarymedicine.diagnostic_testRadiology and ImagingPhysicsPutamenNeurodegenerationBrainNeurodegenerative DiseasesMultiple Sclerosis Chronic ProgressiveMagnetic Resonance ImagingBody Fluidsmedicine.anatomical_structureNeurologyCerebral cortexPhysical SciencesFemaleAnatomyResearch ArticleAdultmedicine.medical_specialtyMultiple SclerosisImaging TechniquesImmunologyCentral nervous systemThalamusResearch and Analysis MethodsAutoimmune Diseases03 medical and health sciencesSigns and SymptomsDiagnostic MedicineIntellectual DisabilityHumansddc:610Relaxation (Physics)business.industryMultiple sclerosislcsh:RBiology and Life SciencesMagnetic resonance imagingmedicine.diseaseDemyelinating DisordersCase-Control StudiesLesionslcsh:QClinical ImmunologyClinical Medicinebusiness030217 neurology & neurosurgerydescription
Purpose: In secondary progressive Multiple Sclerosis (SPMS), global neurodegeneration as a driver of disability gains importance in comparison to focal inflammatory processes. However, clinical MRI does not visualize changes of tissue composition outside MS lesions. This quantitative MRI (qMRI) study investigated cortical and deep gray matter (GM) proton density (PD) values and T1 relaxation times to explore their potential to assess neuronal damage and its relationship to clinical disability in SPMS. Materials and Methods: 11 SPMS patients underwent quantitative T1 and PD mapping. Parameter values across the cerebral cortex and deep GM structures were compared with 11 healthy controls, and correlation with disability was investigated for regions exhibiting significant group differences. Results: PD was increased in the whole GM, cerebral cortex, thalamus, putamen and pallidum. PD correlated with disability in the whole GM, cerebral cortex, putamen and pallidum. T1 relaxation time was prolonged and correlated with disability in the whole GM and cerebral cortex. Conclusion: Our study suggests that the qMRI parameters GM PD (which likely indicates replacement of neural tissue with water) and cortical T1 (which reflects cortical damage including and beyond increased water content) are promising qMRI candidates for the assessment of disease status, and are related to disability in SPMS.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-08-11 | PLOS ONE |