APPARATUS AND METHOD FOR MAPPING AND MEASUREMENT OF SPATIALLY AND TEMPORALLY DISTRIBUTED INDUCED SMALL PHASE DEVIATIONS IN MAGNETIC RESONANCE UTILIZING DECONVOLUTION

摘要

Phase variations of the transverse magnetization in magnetic resonance induced by superimposed physical phenomenae or by intrinsic deviations of the main magnetic B0 field are separated from Feature Space set by demodulation and deconvolution, either by electrical circuits or by equivalent computational methods, permitting mapping and measurement of these induced phase variations independent of Feature Space.

主权项

1. A system for identifying spatially and temporally distributed phase deviations within a sample under evaluation, comprising:
a magnetic resonance machine including at least one quadrature coil set and a magnetic resonance machine radio frequency generator, wherein the magnetic resonance machine applies a main magnetic field to the sample under evaluation within the magnetic resonance machine; an induction component configured to induce spatially and temporally ordered phase deviations of the transverse magnetization within the sample under evaluation; a computer system connected to the magnetic resonance machine, wherein the computer system is configured to:
receive a first voltage from the at least one quadrature coil set;receive a second voltage from the at least one quadrature coil set;receive an output of the magnetic resonance machine radio frequency generator and phase-shift the output to a first and second phase-shifted voltage;multiply the first voltage by the first phase-shifted voltage to generate a first result;multiply the second voltage by the second phase-shifted voltage and invert the result to generate a second result;sum the first and second results to generate a spatial Fourier transform of a Feature Space representing an original native data set of the sample under evaluation produced by the magnetic resonance machine without the induction of the spatially and temporally ordered phase deviations;apply an inverse Fourier Transform to the spatial Fourier transform of the Feature Space representing the original native data set to generate a Feature Space which is the original native data set;multiply the first voltage by the second phase-shifted voltage to generate a third result;multiply the second voltage by the first phase-shifted voltage to generate a fourth result; andsum the third and fourth results to generate a spatial Fourier transform of an Aberrational Feature Space representing the product everywhere of the original native data set and the induced spatially and temporally ordered phase deviations;apply a deconvolution algorithm to the spatial Fourier transform of the Aberrational Feature Space and the spatial Fourier transform of the Feature Space to generate a fifth result; andapply an inverse Fourier Transform to the fifth result to generate a Phase Aberration Space which is the data set of the spatially and temporally ordered phase deviations.