Patent ID: 6731113
Filing Date: 2004-05-04
Classification: G01R

Abstract:
A method of compensating for variations in the magnetic field strength of the main magnetic field coils in a magnetic resonance imaging (MRI) device, comprising:(a) determining a present value for each of a plurality of parameters, wherein said plural parameters comprise: temperature, wherein the temperature comprises at least one of the temperature of any magnetizeable material in the MR device, the atmospheric temperature in the vicinity of the MRI device, the temperature of the shim iron, and the temperature of any other portion of the MRI device; an amount of electrical power dissipated in at least one gradient magnetic field coil; an amount of electrical power dissipated in the main magnetic field coils; current gradient waveforms I,x,y,z.; one or more external magnetic fields; an amount of atmospheric pressure; and an amount of vibrations; (b) using, for each one of the plural parameters, a lookup table created for each one of the plural parameters to find an effect signal corresponding to the present value of each one of the plural parameters, wherein said effect signal represents a variation in the magnetic field strength of the main magnetic coils caused by a change in magnetizable material in the MRI device, wherein the change in magnetizable material was caused, in turn, by each one of the plural parameters; (c) generating a compensation signal by weighting and combining each of the plural effect signals found in step (b); and (d) at least one of the following steps: applying the generated compensation signal to a power signal of the main magnetic field coils; applying the generated compensation signal by adapting the frequency of an RF oscillator means in the MRI device; and applying the generated compensation signal directly upon an image signal by means of image processing software, in order to compensate for variations in magnetic field strength of the main magnetic field coils caused by changes in magnetizable material of the MRI device, which changes in magnetizable material, in turn, were caused by the plural parameters.