Uncovering hidden in vivo resonances using editing based on localized TOCSY

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A novel single-shot spectral editing technique for in vivo proton NMR is proposed to recover resonances of low-concentration metabolites obscured by very strong resonances. With this new method, editing is performed by transferring transverse magnetization to J-coupled spins from selected coupling partners using a homonuclear Hartmann-Hahn polarization transfer with adiabatic pulses. The current implementation uses 1D-TOCSY with single-voxel localization based on LASER to recover the H1 proton of beta-glucose at 4.63 ppm from under water and the lactate methyl resonances from beneath a strong lipid signal. The method can be extended to further spin systems where conventional editing methods are difficult to perform.

Uncovering hidden in vivo resonances using editing based on localized TOCSY

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New Approaches to NMR Crystallography

Transportable hyperpolarized metabolites

Long-lived nuclear spin states of magnetically equivalent protons by means of dissolution dynamic nuclear polarization

Long-lived nuclear spin states of magnetically equivalent protons by means of dissolution dynamic nuclear polarization

New Approaches to NMR Crystallography

Transportable hyperpolarized metabolites