Separation of water and fat MR images in a single scan at .35 T using „sandwich”︁ echoes

Abstract

A method was developed for separation of water and fat MR images in a single scan with correction of static field inhomogeneity. The imaging sequence uses a single radiofrequency (RF) echo that is „sandwiched”︁ between two gradient echoes. The gradient echoes are used to determine the B_o distribution and to produce out‐of‐phase images after phase correction using the field map. An algorithm was developed to unwrap the phase images for quantitating the B_o inhomogeneity. To account for differences in geometric distortion between the RF echo image and the gradient echo images due to the reversal of the read gradients, methods were developed to correct the images before the calculation of the final water and fat images. The proposed technique was implemented at .35 T. Both phantom and human images were acquired using the method. It is shown that water‐ and fat‐separated images can be obtained in a single scan using the „sandwich”︁ echoes in the presence of a relatively large B_o inhomogeneity.