Journal of Associated Medical Sciences (Jan 2011)

A Phantom Study of Impact from Different Degree of the Main Magnetic Field Perturbations of MRI Scanner on T2* Measurements

  • Siriphan Luxsakhum,
  • Suwit Saekho,
  • Petai Buttakote,
  • Uten Yarach

Journal volume & issue
Vol. 44, no. 1
pp. 45 – 45

Abstract

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Objectives: To determine the levels of main magnetic field inhomogeneity that potentially affect to the accuracy of the T2* measurements in phantom. Methods: The magnetic field uniformity of a 1.5 Tesla MRI scanner was measured under normal condition and 7 different levels of perturbations. The change of T2* of a gel phantom incorporated 8 different concentrations of Ferric iron, was monitored along with the levels of main magnetic field inhomogeneity. The correlation between the levels of main magnetic field inhomogeneity and measured T2* was evaluated by 2 way analysis of variance (2 way ANOVA). The range of magnetic field inhomogeneity affected measured T2* was evaluated by pair-Test based on Fisher’s least significant different (LSD) analysis at 95% confident interval. The fitting model used to evaluate for T2* values was the simple mono-exponential model running on MATLAB 7.0.1 (Mathworks, Natick, MA, USA). The percent coefficient of variance (%CV) of mean T2* in each concentration of Fe3+ was measured. Results: The two-way ANOVA demonstrated that magnetic field inhomogeneity (ppm) significantly affected to T2* values with 95% confident interval (P=0.000). Fisher’s least significant different analysis showed that magnetic field inhomogeneity under 0.90 ppm resulted in significant differences (95% confident interval with p=0.100) of mean T2* measurements. In addition, main magnetic field inhomogeneity showed greater impact to T2* values at upper 20 milliseconds than lower 20 milliseconds with the ranges of percent coefficient of variation (%CV) = 3.15-4.85 and 0.63-3.17 respectively. Conclusion: Magnetic field homogeneity affected the accuracy of T2* measurement. It was shown that when perturbation of main magnetic field was below 0.90 ppm, the accuracy of T2* measurements tended to have no effect. The results also showed that ferric iron concentrations of 1.0-2.0 mg/g wet weight or T2* values was lower than 20 milliseconds, the impact to T2* values dued to external magnetic field perturbation tended to be reduced for T2* measurements at the ranged of 10.2-50.7 milliseconds.

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