What type of study is this?

This is a Experimental Study study.

September 17, 2025

When CEST meets diffusion: Multi-echo diffusion-encoded CEST MRI to measure intracellular and extracellular CEST signal distribution

Key Points

The multi-echo dCEST imaging technique improves the measurement accuracy of intracellular and extracellular CEST signals, enhancing evaluation of tumor microenvironments.
Overall, the intracellular APTw signal was higher than the conventional total APTw signal, indicating improved detection of tumor characteristics in MRI scans.
Developed to measure signal fractions and ADCs, the dCEST technique isolates blood-related bias and could help in assessing tumor acidity levels.
The intracellular fractions from Z-spectra were found to be higher at -3.5 ppm compared to 3.5 ppm, highlighting a significant differentiation potential in tumor imaging.

Abstract

Motivation: CEST signals from a voxel are affected by various processes, including flow, diffusion, molecular exchange, etc. Goal(s): To develop a novel diffusion-encoded-CEST (dCEST) imaging technique for evaluating the intracellular and extracellular contributions to the CEST signal. Approach: A multi-echo dCEST pulse sequence was developed to measure the signal fractions, relaxation times, and ADCs from the intracellular and extracellular water compartments. The intracellular Z-spectra and APTw signal were estimated. Results: The intracellular fraction for the Z-spectra was found to be slightly higher at -3.5 ppm than at 3.5 ppm. The overall intracellular APTw signal was higher than the conventional total (i.e., intra+extracellular) APTw signal. Impact: The multi-echo dCEST imaging technique could isolate flow and blood-related bias and especially measure extracellular acidosis and intracellular alkalization in tumors.

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