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September 17, 2025

Investigating spatial distribution of metabolite diffusion using diffusion-weighted chemical exchange saturation transfer

Key Points

The amide-weighted ADC was found to be 0.2 × 10-3 mm2/s, which is significantly lower than water ADC.
Comparative analysis showed that the gray matter to white matter ratio for amide-weighted ADC is about 0.8.
Using DW-CEST, researchers demonstrated better spatial information in metabolite diffusion than conventional MRS methods.
This method may enable improved understanding of intracellular environments based on metabolite diffusion patterns.

Abstract

Motivation: Metabolite diffusion provides information on distinctive intracellular environments compared to water diffusion. Conventional diffusion-weighted MRS (DW-MRS) is a useful tool, but it lacks spatial information. Goal(s): We aimed to investigate the spatial distribution of metabolite diffusion in the human brain using diffusion-weighted CEST (DW-CEST). Approach: We performed DW-CEST on a phantom and five human subjects, and then compared ADCs of amide and water in brain tissues. Results: The amide-weighted ADC was 0.2 × 10-3 mm2/s and ~7.5 times smaller than water ADC in the brain. The gray matter / white matter ratio was ~0.8 for the amide-weighted ADC. Impact: Analysis on amide-weighted ADC showed comparable results to findings in DW-MRS studies with more spatial information. This suggests that DW-CEST has the potential to examine metabolite diffusion with better spatial resolution than DW-MRS.

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Cite This Study

Jung et al. (Tue,) studied this question.

synapsesocial.com/papers/68d4597031b076d99fa5c8f0 https://doi.org/https://doi.org/10.58530/2025/4761

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