System and method for variable-flip-angle 3D spiral-in-out TSE/space using echo-reordering and concomitant gradient compensation

The invention claimed is: 1 . A computer implemented method of gathering three-dimensional (3D) magnetic resonance imaging (MRI) data using spiral-in-out encoding trajectories from a k-space encoding orientation and a spoiler gradient direction, the method comprising: using a computer having a processor and computer memory to implement steps comprising: calculating a variable flip angle radio frequency (RF) series for use as refocusing pulses, wherein the RF series comprises a plurality of refocusing RF pulses; applying a spoiler gradient waveform along the spoiler gradient direction, wherein the computer alternately adds and subtracts partition encoding waveforms to the spoiler gradient waveform; reading MRI data with the computer for each encoding step associated with the k-space encoding orientation during an MRI sequence further comprising: inserting a spiral-in gradient before a first refocusing RF pulse from the RF sequence; overlapping a prewinder lobe for the encoding trajectory with the spoiler gradient waveform having the partition encoding waveforms added therein; and overlapping a rewinder lobe for the encoding trajectory with the spoiler gradient waveform having the partition encoding waveforms subtracted there from. 2 . The computer implemented method of claim 1 , further repeating the MRI sequence for a selected number of total partition encodings to obtain data for a 3D MRI acquisition. 3 . The computer implemented method of claim 1 , wherein calculating the RF series comprises identifying a target signal curve having an asymptotic pseudo-steady state stabilization. 4 . The computer implemented method of claim 3 , further comprising identifying the variable flip angle radio frequency (RF) series to meet the target signal curve and selected parameters for the MRI sequence. 5 . The computer implemented method of claim 4 , wherein the selected parameters are selected from the group consisting of field of view, echo spacing, effective TE, readout time, a target number of shots during the MRI sequence, a total number of echoes per shot, an acceleration ratio, a spatial resolution, a k-space center location relative to a selected number of total partition encodings, or a target signal-to-noise ratio. 6 . The computer implemented method of claim 1 , wherein each of the refocusing pulses corresponds to a respective variable flip angle used in the MRI sequence. 7 . The computer implemented method of claim 1 , further comprising using the MRI sequence to extend a useable duration of an echo train by increasing the refocusing flip angles to slow signal decay due to T2 relaxation. 8 . The computer implemented method of claim 1 , further comprising applying the MRI sequence at a low static magnetic-field strength. 9 . The computer implemented method of claim 1 , wherein the low static magnetic-field strength is less than or equal to 1 Tesla. 10 . The computer implemented method of claim 1 , wherein the MRI sequence comprises a turbo-spin-echo imaging sequence. 11 . The computer implemented method of claim 1 , wherein the spiral-in-out encoding trajectories comprise either constant density spirals or variable density spirals. 12 . The computer implemented method of claim 1 , further comprising reading the MRI data with a time symmetric spiral-in-out sampling scheme. 13 . The computer implemented method of claim 1 , further comprises forming an MRI output by fully sampling the MRI data or by under-sampling the MRI data. 14 . The computer implemented method of claim 1 , further comprising accelerating the reading of MRI data by utilizing parallel imaging and/or compressed sensing techniques, wherein the parallel imaging comprises 1D or 2D acceleration. 15 . The computer implemented method of claim 1 , further comprising applying trajectory correction to the MRI data. 16 . The computer implemented method of claim 15 , wherein the trajectory correction is a gradient impulse response function (GIRF). 17 . The computer implemented method of claim 16 , further comprising applying sequence-based concomitant field compensation. 18 . The computer implemented method of claim 1 , further comprising applying echo re-ordering to the MRI data prior to image reconstruction. 19 . The computer implemented method of claim 18 , wherein echo re-ordering comprises reversing an echo order during a measurement. 20 . A computerized system for gathering three-dimensional (3D) magnetic resonance imaging (MRI) data using spiral-in-out encoding trajectories from a k-space encoding orientation and a spoiler gradient direction, the system comprising: a source of a magnetic gradient connected to a computer having a processor and computer memory to implement steps comprising: calculating a variable flip angle radio frequency (RF) series for use as refocusing pulses, wherein the RF series comprises a plurality of refocusing RF pulses; applying a spoiler gradient waveform along the spoiler gradient direction, wherein the computer alternately adds and subtracts partition encoding waveforms to the spoiler gradient waveform; reading MRI data with the computer for each encoding step associated with the k-space encoding orientation during an MRI sequence further comprising: inserting a spiral-in gradient before a first refocusing RF pulse from the RF sequence; overlapping a prewinder lobe for the encoding trajectory with the spoiler gradient waveform having the partition encoding waveforms added therein; and overlapping a rewinder lobe for the encoding trajectory with the spoiler gradient waveform having the partition encoding waveforms subtracted there from.