Self-navigated isotropic three-dimensional cardiac T2 mapping

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Abstract

Purpose To implement and characterize an isotropic three-dimensional cardiac T2 mapping technique. Methods A self-navigated three-dimensional radial segmented balanced steady-state free precession pulse sequence with an isotropic 1.7-mm spatial resolution was implemented at 3T with a variable T2 preparation module. Bloch equation and Monte Carlo simulations were performed to determine the influence of the heart rate, B1 inhomogeneity and noise on the T2 fitting accuracy. In a phantom study, the accuracy of the pulse sequence was studied through comparison with a gold-standard spin-echo T2 mapping method. The robustness and homogeneity of the technique were ascertained in a study of 10 healthy adult human volunteers, while first results obtained in patients are reported. Results The numerical simulations demonstrated that the heart rate and B1 inhomogeneity cause only minor deviations in the T2 fitting, whereas the phantom study showed good agreement of the technique with the gold standard. The volunteer study demonstrated an average myocardial T2 of 40.5±3.3 ms and a <15% T2 gradient in the base-apex and anterior-inferior direction. In three patients, elevated T2 values were measured in regions with expected edema. Conclusion This respiratory self-navigated isotropic three-dimensional technique allows for accurate and robust in vitro and in vivo T2 quantification.

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Van Heeswijk, R. B., Piccini, D., Feliciano, H., Hullin, R., Schwitter, J., & Stuber, M. (2015). Self-navigated isotropic three-dimensional cardiac T2 mapping. Magnetic Resonance in Medicine, 73(4), 1549–1554. https://doi.org/10.1002/mrm.25258

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