Objective: We devised a practical method using double echo with the longest second echo time (DELSET) for simple and accurate signal-to-noise ratio (SNR) measurement of MRIs,
Methods: The DELSET method is based on the doubleecho sequence in which the first and second echo times (TE) are set, respectively, as the clinically acceptable time for the signal image and as the longest time for the noise image. The second TE needs to be at least 8 times longer than T-2 (for spin-echo) or T-2* (for gradient-echo) of the objective tissue, For example, second TE > 560 ms for the case of T-2 = 70 ms: the real part of signal intensity theoretically reaches the same order of magnitude as the quantization limit, due to the T-2 relaxation process. SNR was calculated by dividing mean signal intensity in the first echo image by signal standard deviation (SD) in the second echo image in identical regions of interest after necessary noise correction. We determined the SNRs of cylindrical phantom images with different coils [quadrature (OD) and array coils] and sequences (spin-echo and spoiled gradient-echo sequences) and compared them between the DELSET and subtraction or background methods. The ratio of the mean signal intensity and SD in the second echo image with OD coil was determined to confirm whether the signal intensity had reached noise level.
Results: There were no significant differences in the phantom SNRs with both coils and sequences when DELSET was compared with the other two methods (p > 0.05 for all). The ratios of mean signal intensity and SD in the second echo images with both sequences were found to be in general agreement with a theoretical value, It was possible to obtain SNR images of the phantom, brain and abdomen with the DELSET method.
Conclusion: The DELSET method enables simple and accurate SNR quantification. This practical method is applicable to in vivo parallel imaging.
Advances in knowledge: Practical SNR quantification based on the DELSET method is feasible for application in MRI systems used clinically.

• 出版日期2018
• 单位河北医科大学