Patent Document ID: 4849698
Application ID: 07073679
Patent Status: 1

Claim One:
1. In a method of determining a nuclear magnetization distribution image from RF magnetic resonance signals which are generated in measurement cycles in a body which is situated in a steady, uniform magnetic field, first spin nuclei being excited in the body during each cycle by applying at least one RF pulse, followed by the application of at least one magnetic preparation gradient superposed on the uniform magnetic field, which one magnetic preparation gradient is varied in strength each cycle for the phase encoding of the excited spin nuclei in the direction of said one magnetic preparation gradient, after which a resonance signal is generated from the excited spin nuclei by the application of further RF pulses and/or further magnetic field gradients, said resonance signal being sampled in order to obtain signal samples which are stored in a first dimension of a data matrix, at least a second dimension of which is determined by the strength of the at least one magnetic preparation gradient, and including a phase difference in the spins of said nuclei each cycle during the excitation of the spin nuclei, in addition to said phase encoding, when an RF sensitivity center is offset in the direction of said one magnetic preparation gradient with respect to an excitation isocentre and which excited spin nuclei are thereby situated at least partly outside the field of view of the one magnetic preparation gradient, comprising wherein the additional phase difference is induced at a different level each cycle proportionate to the strength in said cycle of said magnetic preparation gradient so that, after application of correction for said offset, artefacts in the image obtained from the data matrix by Fourier transformation due to coherent interference signals occurring during the cycles are shifted to an edge of the image.