Composite pulses for RF phase encoded MRI: A simulation study.

Background: In B encoded MRI, a realistic non-linear phase RF encoding coil will generate an inhomogeneous B field that leads to spatially dependent flip angles. The non-linearity of the B phase gradient can be compensated for in the reconstruction, but B inhomogeneity remains a problem. The effect of B inhomogeneity on tip angles for conventional, B encoded MRI, may be minimized using composite pulses. The objective of this study was to explore the feasibility of using composite pulses with non-linear RF phase encoding coils and to identify the most appropriate composite pulse scheme.

Methods: RF encoded signals were simulated via the Bloch equation for various symmetric, asymmetric and antisymmetric composite pulses. The simulated signals were reconstructed using a constrained least squares method.

Results: Root mean square reconstruction errors varied from 6% (for an asymmetric composite pulse) to 9.7% (for an antisymmetric composite pulse).

Conclusion: An asymmetric composite pulse scheme created images with fewer artifacts than other composite pulse schemes in inhomogeneous B and B fields making it the best choice for decreasing the effects of spatially varying flip angles. This is contrary to the conclusion that antisymmetric composite pulses are the best ones to use for spin echo sequences in conventional, B encoded, MRI.