Abstract
Background: The research of primary progressive multiple sclerosis (PPMS) has not been able to capitalize on recent progresses in advanced magnetic resonance imaging (MRI) protocols.Objective: The presented cross-sectional study evaluated the utility of four different MRI relaxation metrics and diffusion-weighted imaging in PPMS.Methods: Conventional free precession T1 and T2, and rotating frame adiabatic T1ρ and T2ρ in combination with diffusion-weighted parameters were acquired in 13 PPMS patients and 13 age- and sex-matched controls.Results: T1ρ, a marker of crucial relevance for PPMS due to its sensitivity to neuronal loss, revealed large-scale changes in mesiotemporal structures, the sensorimotor cortex, and the cingulate, in combination with diffuse alterations in the white matter and cerebellum. T2ρ, particularly sensitive to local tissue background gradients and thus an indicator of iron accumulation, concurred with similar topography of damage, but of lower extent. Moreover, these adiabatic protocols outperformed both conventional T1 and T2 maps and diffusion tensor/kurtosis approaches, methods previously used in the MRI research of PPMS.Conclusion: This study introduces adiabatic T1ρ and T2ρ as elegant markers confirming large-scale cortical gray matter, cerebellar, and white matter alterations in PPMS invisible to other in vivo biomarkers.
Highlights
The recent years have seen a rapid evolution of advanced magnetic resonance imaging (MRI) techniques in multiple sclerosis (MS) into viable surrogate biomarkers for various pathological processes associated with the disease, be it demyelination, inflammation, or neurodegeneration (Petracca et al, 2018; Cortese et al, 2019)
For regions of interest (ROIs)-based white matter (WM) analysis, we considered the results statistically significant at the predetermined level of p < 0.05 with false discovery rate (FDR) correction over modalities and contrasts in each General linear models (GLMs)
Two one-sided t-test and Chi-square test confirmed the equivalence of age and sex distribution, respectively, in primary progressive variant of MS (PPMS) and healthy controls (HC)
Summary
The recent years have seen a rapid evolution of advanced magnetic resonance imaging (MRI) techniques in multiple sclerosis (MS) into viable surrogate biomarkers for various pathological processes associated with the disease, be it demyelination, inflammation, or neurodegeneration (Petracca et al, 2018; Cortese et al, 2019). The mechanisms responsible for the development of new focal lesions, a prominent sign in RRMS patients, might differ from the more insidious pathological processes involved in PPMS (Antel et al, 2012). The research of primary progressive multiple sclerosis (PPMS) has not been able to capitalize on recent progresses in advanced magnetic resonance imaging (MRI) protocols
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