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31 p MAS-NMR of Human Erythrocytes: Independence of Cell Volume from angular Velocity

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Authors

Kuchel, Philip William
Bubb, William A
Ramadan, S
Chapman, B E
Philp, D J
Coen, M
Gready, Jill
Harvey, Peta
McLean, Allan J
Hook, J

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John Wiley & Sons Inc

Abstract

31P magic angle spinning NMR (MAS-NMR) spectra were obtained from suspensions of human red blood cells (RBCs) that contained the cell-volume-sensitive probe molecule, dimethyl methylphosphonate (DMMP). A mathematical representation of the spectral-peak shape, including the separation and width-at-half-height in the 31P NMR spectra, as a function of rotor speed, enabled us to explore the extent to which a change in cell volume would be reflected in the spectra if it occurred. We concluded that a fractional volume change in excess of 3% would have been detected by our experiments. Thus, the experiments indicated that the mean cell volume did not change by this amount even at the highest spinning rate of 7 kHz. The mean cell volume and intracellular 31P line-width were independent of the packing density of the cells and of the initial cell volume. The relationship of these conclusions to other non-NMR studies of pressure effects on cells is noted.

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Magnetic Resonance in Medicine

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Restricted until

2037-12-31