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Preliminary demonstration of in vivo quasi‐steady‐state CEST postprocessing—Correction of saturation time and relaxation delay for robust quantification of tumor MT and APT effects

Xiao‐Yong Zhang, Yuting Zhai, Ziyi Jin, Cong Li, Phillip Zhe Sun, Yin Wu

2021Magnetic Resonance in Medicine37 citationsDOI

Abstract

PURPOSE: Chemical exchange saturation transfer (CEST) MRI is versatile for measuring the dilute labile protons and microenvironment properties. However, the use of insufficiently long RF saturation duration (Ts) and relaxation delay (Td) may underestimate the CEST measurement. This study proposed a quasi-steady-state (QUASS) CEST analysis for robust CEST quantification. METHODS: The CEST signal evolution was modeled as a function of the longitudinal relaxation rate during Td and spin-lock relaxation rate during Ts, from which the QUASS-CEST effect is derived. Numerical simulation and in vivo rat glioma MRI experiments were conducted at 11.7 T to compare the apparent and QUASS-CEST results obtained under different Ts/Td of 2 seconds/2 seconds and 4 seconds/4 seconds. Magnetization transfer and amide proton transfer effects were resolved using a multipool Lorentzian fitting and evaluated in contralateral normal tissue and tumor regions. RESULTS: The simulation showed the dependence of the apparent CEST effect on Ts and Td, and such reliance was mitigated with the QUASS algorithm. Animal experiment results showed that the apparent magnetization transfer and amide proton transfer effects and their contrast between contralateral normal tissue and tumor regions increased substantially with Ts and Td. In comparison, the QUASS magnetization transfer and amide proton transfer effects and their difference between contralateral normal tissue and tumor exhibited little dependence on Ts and Td. In addition, the apparent magnetization transfer and amide proton transfer were significantly smaller than the corresponding QUASS indices (P < .05). CONCLUSION: The QUASS-CEST algorithm enables robust CEST quantification and offers a straightforward approach to standardize CEST experiments.

Topics & Concepts

Magnetization transferNuclear magnetic resonanceChemistryRelaxation (psychology)ProtonSteady state (chemistry)MagnetizationMagnetic resonance imagingPhysicsMagnetic fieldPhysical chemistrySocial psychologyMedicineQuantum mechanicsPsychologyRadiologyLanthanide and Transition Metal ComplexesMagnetism in coordination complexesAdvanced MRI Techniques and Applications
Preliminary demonstration of in vivo quasi‐steady‐state CEST postprocessing—Correction of saturation time and relaxation delay for robust quantification of tumor MT and APT effects | Litcius