MRIsimulations Inc, University of Tsukuba, Japan.
MRIsimulations Inc, University of Tsukuba, Japan.
Magn Reson Imaging. 2020 Dec;74:250-257. doi: 10.1016/j.mri.2020.09.024. Epub 2020 Oct 1.
The purpose of this study is to develop a method for the Bloch image simulation of biological tissues including various chemical components and T* distribution.
The nuclear spins in the object material were modeled as a spectral intensity function Sr→ω defined by superposition of Lorentz functions with various central precession frequencies and the half width of 1/(πT'), where 1/T' is a relaxation rate attributable to microscopic field inhomogeneity in a voxel. Four-dimensional numerical phantoms were created to simulate Sr→ω and used for MRI simulations of the phantoms containing water and fat protons. Single slice multiple (16) gradient-echo sequences (ΔTE = 2.2 and 1.384 ms) were used for experiments at 1.5 T and 3 T and MRI simulations to evaluate the validity of the approach.
Experimentally measured image intensities of the multiple gradient-echo imaging sequences were well reproduced by the MRI simulations. The correlation coefficients between the experimentally measured image intensities and those numerically simulated were 0.9895 to 0.9992 for the 4-component phantom at 1.5 T and 0.9580 to 0.9996 for the 7-component phantom at 3 T.
T* and chemical shift effects were successfully implemented in the MRI simulator (BlochSolver). Because this approach can be applied to other MRI simulators, the method developed in this study is useful for MRI simulation of biological tissues containing water and fat protons.
本研究旨在开发一种模拟包含各种化学组分和 T*分布的生物组织 Bloch 图像的方法。
将物体材料中的核自旋建模为一个光谱强度函数 Sr→ω,该函数由具有不同中心进动频率和 1/(πT')半宽的洛伦兹函数的叠加定义,其中 1/T'是体素中微观磁场不均匀性引起的弛豫率。创建了四维数值幻影以模拟 Sr→ω,并将其用于包含水和脂肪质子的幻影的 MRI 模拟。使用单切片多(16)梯度回波序列(ΔTE=2.2 和 1.384 ms)在 1.5 T 和 3 T 下进行实验和 MRI 模拟,以评估该方法的有效性。
通过 MRI 模拟很好地再现了多梯度回波成像序列的实验测量图像强度。在 1.5 T 下的 4 组分幻影和在 3 T 下的 7 组分幻影中,实验测量的图像强度与数值模拟的图像强度之间的相关系数分别为 0.9895 至 0.9992 和 0.9580 至 0.9996。
在 MRI 模拟器(BlochSolver)中成功实现了 T*和化学位移效应。由于这种方法可以应用于其他 MRI 模拟器,因此本研究中开发的方法对于模拟包含水和脂肪质子的生物组织的 MRI 是有用的。
