On Neglecting Chemical Exchange Effects When Correcting in VivoP MRS Data for Partial Saturation |
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Authors: | Ronald Ouwerkerk Paul A Bottomley |
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Institution: | Division of MR Research, Department of Radiology, Johns Hopkins University, School of Medicine, Baltimore, Maryland, 21287 |
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Abstract: | This article replies to Spencer et al. (J. Magn. Reson.149, 251–257, 2001) concerning the degree to which chemical exchange affects partial saturation corrections using saturation factors. Considering the important case of in vivo31P NMR, we employ differential analysis to demonstrate a broad range of experimental conditions over which chemical exchange minimally affects saturation factors, and near-optimum signal-to-noise ratio is preserved. The analysis contradicts Spencer et al.'s broad claim that chemical exchange results in a strong dependence of saturation factors upon M0's and T1 and exchange parameters. For Spencer et al.'s example of a dynamic 31P NMR experiment in which phosphocreatine varies 20-fold, we show that our strategy of measuring saturation factors at the start and end of the study reduces errors in saturation corrections to 2% for the high-energy phosphates. |
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Keywords: | chemical exchange saturation factors longitudinal relaxation dual angle method progressive saturation creatine kinase 31P MRS |
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