Simultaneous High-Resolution 3D Metabolic Imaging and Myelin/Axonal Water Fraction Mapping in Multiple Sclerosis Using SPICE

Key Points

Simultaneous imaging revealed distinct neurometabolic alterations in MS patients.
The model-based method identified myelin and axonal water fractions effectively from unsuppressed water signals.
MRSI scans performed on 45 MS patients demonstrated significant biomarkers for characterizing MS pathology.
This approach may advance our understanding of MS and improve biomarker development for clinical insights.

Abstract

Motivation: Improved characterization of multiple sclerosis (MS) using both neurometabolite and myelin/axonal water-based biomarkers. Goal(s): To demonstrate simultaneous high-resolution whole-brain metabolic imaging and myelin/axonal/extracellular water fraction mapping in MS. Approach: MRSI scans without water suppression using SPICE (11.35-min scan; T2*: 2.0×1.0×1.0 mm³; MRSI: 2.0×3.0×3.3 mm³) were performed on 45 MS patients. A model-based method was used for myelin/axonal/extracellular water fraction mapping from the unsuppressed water signals. Results: Our method captured concurrent myelin/axonal/extracellular water fraction and neurometabolic alterations between lesion and normal tissues, as well as across patient groups. Impact: Simultaneous high-resolution whole-brain metabolic imaging and myelin/axonal water fraction mapping may provide useful biomarkers to characterize MS pathophysiology.

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Simultaneous High-Resolution 3D Metabolic Imaging and Myelin/Axonal Water Fraction Mapping in Multiple Sclerosis Using SPICE

Key Points

Abstract

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