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Rotating frame MRI relaxations as markers of diffuse white matter abnormalities in multiple sclerosis

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FILIP Pavel SVATKOVA Alena CARPENTER Adam F. EBERLY Lynn E. NESTRASIL Igor NISSI Mikko J. MICHAELI Shalom MANGIA Silvia

Rok publikování 2020
Druh Článek v odborném periodiku
Časopis / Zdroj NeuroImage: Clinical
Fakulta / Pracoviště MU

Lékařská fakulta

Citace
www https://www.sciencedirect.com/science/article/pii/S2213158220300711?via%3Dihub
Doi http://dx.doi.org/10.1016/j.nicl.2020.102234
Klíčová slova Multiple sclerosis; Rotating frame relaxation MRI; Adiabatic pulses; DTI; T1w/T2w ratio
Popis Even though MRI visualization of white matter lesions is pivotal for the diagnosis and management of multiple sclerosis (MS), the issue of detecting diffuse brain tissue damage beyond the apparent T2-hyperintense lesions continues to spark considerable interest. Motivated by the notion that rotating frame MRI methods are sensitive to slow motional regimes critical for tissue characterization, here we utilized novel imaging protocols of rotating frame MRI on a clinical 3 Tesla platform, including adiabatic longitudinal, T1 rho, and transverse, T2 rho, relaxation methods, and Relaxation Along a Fictitious Field (RAFF) in the rotating frame of rank 4 (RAFF4), in 10 relapsing-remitting multiple sclerosis patients and 10 sex- and age-matched healthy controls. T1 rho, T2 rho and RAFF4 relaxograms extracted from the whole white matter exhibited a significant shift towards longer relaxation time constants in MS patients as compared to controls. T1 rho and RAFF4 detected alterations even when considering only regions of normally appearing white matter (NAWM), while other MRI metrics such as T1w/T2w ratio and diffusion tensor imaging measures failed to find group differences. In addition, RAFF4, T2 rho and, to a lesser extent, T1 rho showed differences in subcortical grey matter structures, mainly hippocampus, whereas no functional changes in this region were detected in resting-state functional MRI metrics. We conclude that rotating frame MRI techniques are exceptionally sensitive methods for the detection of subtle abnormalities not only in NAWM, but also in deep grey matter in MS, where they surpass even highly sensitive measures of functional changes, which are often suggested to precede detectable structural alterations. Such abnormalities are consistent with a wide spectrum of different, but interconnected pathological features of MS, including the loss of neuronal cells and their axons, decreased levels of myelin even in NAWM, and altered iron content.

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