Chemical shift separation with controlled aliasing for hyperpolarized (13) C metabolic imaging.

@article{Shin2015ChemicalSS,
  title={Chemical shift separation with controlled aliasing for hyperpolarized (13) C metabolic imaging.},
  author={Peter J Shin and Peder E. Z. Larson and Martin Uecker and Galen D. Reed and Adam B. Kerr and James Tropp and Michael A. Ohliger and Sarah J. Nelson and John M. Pauly and Michael Lustig and Daniel B. Vigneron},
  journal={Magnetic resonance in medicine},
  year={2015},
  volume={74 4},
  pages={978-89}
}
PURPOSE A chemical shift separation technique for hyperpolarized (13) C metabolic imaging with high spatial and temporal resolution was developed. Specifically, a fast three-dimensional pulse sequence and a reconstruction method were implemented to acquire signals from multiple (13) C species simultaneously with subsequent separation into individual images. THEORY AND METHODS A stack of flyback echo-planar imaging readouts and a set of multiband excitation radiofrequency pulses were designed… CONTINUE READING

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