Spectral-Spatial RF Pulse Design for MRI and MRSI MATLAB Package Originally Written by: Adam B. Kerr and Peder E. Z. Larson
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This package includes Matlab functions to design spectral-spatial RF pulses (also known as spatial-spectral RF pulses) for application to magnetic resonance spectroscopy and imaging. See the "examples/" folder for sample code and pulse designs.
Examples include excitation and refocusing pulses, as well as pulses for hyperpolarized carbon-13 MRI.
Spectral-spatial RF excitation pulse for MRI with hyperpolarized hyperpolarized [2-13C]dihydroxyacetone metabolism studies, https://doi.org/10.1002/mrm.26226
Requirements:
- Signal Processing Toolbox (MathWorks)
- Optimization Toolbox (MathWorks)
- rf_tools package : This is included in the package, and also available for download at http://rsl.stanford.edu/research/software.html
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All works deriving from this package must be properly cited. Please include the following sources of support:
- Center for Advanced Magnetic Resonance Technology at Stanford (NIH P41-RR009784)
- Hyperpolarized MRI Technology Resource Center at UCSF (NIH P41-EB013598)
The following references describe the design methods used:
- Kerr, A.B., Larson,P. E., Lustig, M., Cunningham, C. H., Chen, A. P., Vigneron, D. B., and Pauly, J. M. Multiband spectral-spatial design for high-field and hyperpolarized C-13 applications. In Proceedings of the 16th Annual Meeting of ISMRM (Toronto, 2008), p. 226.
- Larson, P. E. Z., Kerr, A. B., Chen, A. P., Lustig, M., Zierhut, M. L., Hu, S., Cunningham, C. H., Pauly, J. M., Kurhanewicz, J., and Vigneron, D. B. Multiband excitation pulses for hyperpolarized 13C dynamic chemical shift imaging. J Magn Reson 194, 1 (Sept. 2008), 121--127.
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For additional information, please contact Peder Larson ([email protected]) or Adam Kerr ([email protected])