A minimum-phase Shinnar-Le Roux spectral-spatial excitation RF pulse for simultaneous water and lipid suppression in 1H-MRSI of body extremities

Publication date: January 2018
Source:Magnetic Resonance Imaging, Volume 45
Author(s): Paul Kyu Han, Chao Ma, Kexin Deng, Shuang Hu, Kyung-Wook Jee, Kui Ying, Yen-Lin Chen, Georges El Fakhri
PurposeTo develop a spectral-spatial (SPSP) excitation RF pulse for simultaneous water and lipid suppression in proton (¹H) magnetic resonance spectroscopic imaging (MRSI) of body extremities.MethodsAn SPSP excitation pulse is designed to excite Creatine (Cr) and Choline (Cho) metabolite signals while suppressing the overwhelming water and lipid signals. The SPSP pulse is designed using a recently proposed multidimensional Shinnar-Le Roux (SLR) RF pulse design method. A minimum-phase spectral selectivity profile is used to minimize signal loss from T2^⁎ decay.ResultsThe performance of the SPSP pulse is evaluated via Bloch equation simulations and phantom experiments. The feasibility of the proposed method is demonstrated using three-dimensional, short repetition-time, free induction decay-based ¹H-MRSI in the thigh muscle at 3T.ConclusionThe proposed SPSP excitation pulse is useful for simultaneous water and lipid suppression. The proposed method enables new applications of high-resolution ¹H-MRSI in body extremities.



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