A fast spectroscopic imaging method using a blipped phase encode gradient

## Abstract Whole‐brain echo‐planar spectroscopic imaging (EPSI) often substantially lengthens MRI/MRSI (magnetic resonance spectroscopic imaging) protocols. To halve acquisition time, application of a blipped phase‐encoding (PE) gradient during the EPSI readout (RO) was previously suggested by PE

So far, fast spectroscopic imaging (SI) using the U-FLARE sequence has provided metabolic maps indirectly via Fourier transformation (FT) along the chemical shift (CS) dimension and subsequent peak integration. However, a large number of CS encoding steps N is needed to cover the spectral bandwidth

## Abstract A rapid method of generating __T__~1~ images by means of an inversion pulse followed by a fast low‐angle imaging experiment is presented. The __T__~1~ contrast is manipulated by a temporal reordering of the phase‐encoding gradient, resulting in an almost completely free choice of __T__~

## Abstract Time‐resolved velocity imaging using the magnetic resonance phase contrast technique can provide clinically important quantitative flow measurements __in vivo__ but suffers from long scan times when based on conventional spin‐warp sequences. This can be particularly problematic when ima