Scientific Reports (Aug 2024)
Spin-lock based fast whole-brain 3D macromolecular proton fraction mapping of relapsing–remitting multiple sclerosis
Abstract
Abstract A sensitive and efficient imaging technique is required to assess the subtle abnormalities occurring in the normal-appearing white matter (NAWM) and normal-appearing grey matter (NAGM) in patients with relapsing–remitting multiple sclerosis (RRMS). In this study, a fast 3D macromolecular proton fraction (MPF) quantification based on spin-lock (fast MPF-SL) sequence was proposed for brain MPF mapping. Thirty-four participants, including 17 healthy controls and 17 RRMS patients were prospectively recruited. We conducted group comparison and correlation between conventional MPF-SL, fast MPF-SL, and DWI, and compared differences in quantified parameters within MS lesions and the regional NAWM, NAGM, and normal-appearing deep grey matter (NADGN). MPF of MS lesions was significantly reduced (7.17% ± 1.15%, $$P$$ P < 0.01) compared to all corresponding normal-appearing regions. MS patients also showed significantly reduced mean MPF values compared with controls in NAGM (4.87% ± 0.38% vs 5.21% ± 0.32%, $$P$$ P = 0.01), NAWM (9.49% ± 0.69% vs 10.32% ± 0.59%, $$P$$ P < 0.01) and NADGM (thalamus 5.59% ± 0.67% vs 6.00% ± 0.41%, $$P$$ P = 0.04; caudate 5.10% ± 0.55% vs 5.53% ± 0.58%, $$P$$ P = 0.03). MPF and ADC showed abnormalities in otherwise normal appearing close to lesion areas (P < 0.01). In conclusion, time-efficient MPF mapping of the whole brain can be acquired efficiently (< 3 min) using fast MPF-SL. It offers a promising alternative way to detect white matter abnormalities in MS.
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