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Isolation of amide proton transfer effect and relayed nuclear Overhauser enhancement effect at ‐3.5ppm using CEST with double saturation powers

Yu Zhao, Casey Sun, Zhongliang Zu

2023Magnetic Resonance in Medicine16 citationsDOIOpen Access PDF

Abstract

PURPOSE: Quantifications of amide proton transfer (APT) and nuclear Overhauser enhancement (rNOE(-3.5)) mediated saturation transfer with high specificity are challenging because their signals measured in a Z-spectrum are overlapped with confounding signals from direct water saturation (DS), semi-solid magnetization transfer (MT), and CEST of fast-exchange pools. In this study, based on two canonical CEST acquisitions with double saturation powers (DSP), a new data-postprocessing method is proposed to specifically quantify the effects of APT and rNOE. METHODS: , whereas the slow-exchange APT/rNOE(-3.5) effect do not, which is exploited to isolate a part of the APT and rNOE effects from the confounding signals in this study. After a mathematical derivation for the establishment of the proposed method, numerical simulations based on Bloch equations are then performed to demonstrate its specificity to detections of the APT and rNOE effects. Finally, an in vivo validation of the proposed method is conducted using an animal tumor model at a 4.7 T MRI scanner. RESULTS: The simulations show that DSP-CEST can quantify the effects of APT and rNOE and substantially eliminate the confounding signals. The in vivo experiments demonstrate that the proposed DSP-CEST method is feasible for the imaging of tumors. CONCLUSION: The data-postprocessing method proposed in this study can quantify the APT and rNOE effects with considerably increased specificities and a reduced cost of imaging time.

Topics & Concepts

Magnetization transferNuclear magnetic resonanceSaturation (graph theory)ChemistryNuclear Overhauser effectProtonBiological systemNuclear magnetic resonance spectroscopyPhysicsMagnetic resonance imagingNuclear physicsMathematicsCombinatoricsRadiologyBiologyMedicineLanthanide and Transition Metal ComplexesMagnetism in coordination complexesAdvanced MRI Techniques and Applications
Isolation of amide proton transfer effect and relayed nuclear Overhauser enhancement effect at ‐3.5ppm using CEST with double saturation powers | Litcius