Purpose: To develop 5T-SRIS, an improved 5T myocardial T1 mapping method based on MOLLI, which addresses limitations in inversion efficiency, readout perturbations, and imperfect magnetization recovery. Methods: The proposed 5T-SRIS method is based on a modified 5-(3)-3 MOLLI sequence with ECG gating and gradient echo readout. To improve inversion efficiency at 5T, the inversion pulse was redesigned using adiabatic hyperbolic secant (HSn) and tangent/hyperbolic tangent (Tan/Tanh) pulses. Signal evolution was modeled recursively with inversion efficiency and a correction factor (C) to correct inversion imperfections, and T1 values were estimated via nonlinear optimization. The method was validated in phantom studies, as well as in 21 healthy volunteers and 9 patients at 5T. Results: The optimized IR pulse based on the tangent/hyperbolic tangent pulse was found to outperform the conventional hyperbolic secant IR pulse at the 5T scanner. This optimized IR pulse achieves an average inversion factor of 0.9014within a B0 range of 250Hz and a B1 range of -50% to 20%. Phantom studies show that the 5T-SRIS achieved high accuracy with errors within 5%. In vivo studies with 21 healthy volunteers, the native myocardial T1 values were 1468 ms (apex), 1514 ms (middle), and 1545 ms (base). In vivo studies with 9 heart patients, the native myocardial T1 values were 1484 ms (apex), 1532 ms (middle), and 1581 ms (base). And the post myocardial T1 values were 669 ms (apex), 698 ms (middle), and 675 ms (base). Conclusion: The 5T-SRIS technique is robust and suitable for clinical cardiac imaging. This study demonstrates its feasibility for accurate myocardial T1 mapping at 5T, despite challenges related to magnetic field inhomogeneity. Keywords: Myocardial T1 mapping, 5T, improved MOLLI, 5T-SRIS
Comment: arXiv admin note: text overlap with arXiv:2501.07081