Difference between revisions of "Small flip-angle spokes with SAR constraints"

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=== Citation ===
 
=== Citation ===
Guérin B, Gebhardt M, Cauley S, Adalsteinsson E, Wald LL (2014). "Local specific absorption rate (SAR), global SAR, transmitter power, and excitation accuracy trade‐offs in low flip‐angle parallel transmit pulse design." Magnetic Resonance in Medicine 71(4): 1446-1457.
+
Guérin B, Gebhardt M, Cauley S, Adalsteinsson E, Wald LL (2014). "[http://onlinelibrary.wiley.com/doi/10.1002/mrm.24800/pdf Local specific absorption rate (SAR), global SAR, transmitter power, and excitation accuracy trade‐offs in low flip‐angle parallel transmit pulse design.]" Magnetic Resonance in Medicine 71(4): 1446-1457.
 
 
 
=== What this code does ===
 
=== What this code does ===
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* A B0 map in NIFTI format.
 
* A B0 map in NIFTI format.
 
* An FLD file containing the B1+ maps for the slice considered as obtained by pushing "save dataset" in the B1 mapping tab of the Siemens pTx "Step 2" interface.
 
* An FLD file containing the B1+ maps for the slice considered as obtained by pushing "save dataset" in the B1 mapping tab of the Siemens pTx "Step 2" interface.
To get (i) and (ii), I use the Siemens product gre_fieldmapping sequence (make sure to chose "save magnitude/phase" in order to get both the B0 and ROI maps in the same scan). The B0, B1 and ROI datasets must have the same number of pixels and same dimensions.
+
To get the ROI and B0 maps, I use the Siemens product gre_fieldmapping sequence (make sure to chose "save magnitude/phase" in order to get both the B0 and ROI maps in the same scan). The B0, B1 and ROI datasets must have the same number of pixels and same dimensions.
 
==== Spokes optimization ====
 
==== Spokes optimization ====
Unzip the code folder and add it to your path. Unzip the data folder and run the script run_spokes.m. There are several options in it that are straightforward to understand (e.g., LS/MLS, spatio-spectral design). Most of the spoke options (such as slice-thickness, slice-selection gradient, time-bandwidth product etc...) are specified in the text file spokes_def.txt and can be changed there.
+
Unzip the code folder and add it to your path. Unzip the data folder and run the script run_spokes.m. There are several options in it that are straightforward to understand (e.g., LS/MLS, spatio-spectral design). The frequencies of the spatio-spectral design are expressed in Hz and are offset with respect to the Larmor frequency (i..e, +50 means Larmor frequency+50 Hz). Most of the spoke options (such as slice-thickness, slice-selection gradient, time-bandwidth product etc...) are specified in the text file spokes_def.txt and can be changed there.

Latest revision as of 13:42, 2 November 2015

Citation

Guérin B, Gebhardt M, Cauley S, Adalsteinsson E, Wald LL (2014). "Local specific absorption rate (SAR), global SAR, transmitter power, and excitation accuracy trade‐offs in low flip‐angle parallel transmit pulse design." Magnetic Resonance in Medicine 71(4): 1446-1457.

What this code does

This Matlab code (no MEX, no GPU code) computes least-squares and magnitude least-squares pTx spoke pulses. The MLS problem can be solved using the phase adoption approach of Setsompop et al. or a full optimization strategy (see the file spokes_3/run_spokes.m and options therein). Spokes can be optimized for several frequencies (spatio-spectral design) in order to build in robustness to off-resonance effects.

Download files

The code can be downloaded here. A test dataset can be downloaded here. If you wonder how I obtained the field maps, ROI and SODA (=slice information) files, download this file.

Instructions

Pre-scan data format

The format of the pre-scan data (e.g., B0 map, B1+ maps, slice information in the SODA file) matches the Siemens pTx "Step 2" data format. To take a closer look at this, download the prescan_data.zip file,

  • An ROI file in NIFTI format.
  • A B0 map in NIFTI format.
  • An FLD file containing the B1+ maps for the slice considered as obtained by pushing "save dataset" in the B1 mapping tab of the Siemens pTx "Step 2" interface.

To get the ROI and B0 maps, I use the Siemens product gre_fieldmapping sequence (make sure to chose "save magnitude/phase" in order to get both the B0 and ROI maps in the same scan). The B0, B1 and ROI datasets must have the same number of pixels and same dimensions.

Spokes optimization

Unzip the code folder and add it to your path. Unzip the data folder and run the script run_spokes.m. There are several options in it that are straightforward to understand (e.g., LS/MLS, spatio-spectral design). The frequencies of the spatio-spectral design are expressed in Hz and are offset with respect to the Larmor frequency (i..e, +50 means Larmor frequency+50 Hz). Most of the spoke options (such as slice-thickness, slice-selection gradient, time-bandwidth product etc...) are specified in the text file spokes_def.txt and can be changed there.