Flip angle dependence of experimentally determined T1sat and apparent magnetization transfer rate constants

The purpose of this work was to develop a method for determining the T1_sat and magnetization transfer (MT) rate constants by analyzing the slice-select flip angle dependent MT behavior of normal white and gray matter. The technique uses a high MT power, three-dimensional (3D) gradient-recalled echo (GRE) sequence, with a well chosen MT pulse frequency offset, such that the experimental conditions closely satisfy requisite assumptions for invoking a first order rate process for MT. Integral to this method is that the T1_sat and MT ratio values are obtained under explicitly identical MT saturation conditions. The T1_sat of white matter was found to be approximately 300 msec, and the MT rate constant was approximately 2.0 sec^?1. The T1_sat of gray matter was approximately 500 msec, and the MT rate constant was 1.1 sec^?1. We also found a strong dependence of the MT rate constant on the slice-select flip angle used for the imaging sequence, independent of the MT saturation parameters. Strongly T1-weighted imaging sequences can result in the underestimation of the MT rate constant by 50%. Practical technical suggestions for quantitative MT experiments are put forth.