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W2129331408 abstract "The selective excitation of metabolite signals in vivo requires the use of specially adapted pulse techniques, in particular when the signals are weak and the resonances overlap with those of unwanted molecules. Several pulse sequences have been proposed for this spectral editing task. However, their performance is strongly degraded by unavoidable experimental imperfections. Here, we show that optimal control theory can be used to generate pulses and sequences that perform almost ideally over a range of rf field strengths and frequency offsets that can be chosen according to the specifics of the spectrometer or scanner being used. We demonstrate this scheme by applying it to lactate editing. In addition to the robust excitation, we also have designed the pulses to minimize the signal of unwanted molecular species." @default.
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W2129331408 creator A5036012353 @default.
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W2129331408 date "2014-06-01" @default.
W2129331408 modified "2023-10-14" @default.
W2129331408 title "Optimized multiple-quantum filter for robust selective excitation of metabolite signals" @default.
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W2129331408 doi "https://doi.org/10.1016/j.jmr.2014.03.007" @default.
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