Chatnuntawech Itthi, Martin Adrian, Bilgic Berkin, Setsompop Kawin, Adalsteinsson Elfar, Schiavi Emanuele
Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA.
Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology, Cambridge, MA, USA; Applied Mathematics, Universidad Rey Juan Carlos, Mostoles, Madrid, Spain.
Magn Reson Imaging. 2016 Oct;34(8):1161-70. doi: 10.1016/j.mri.2016.05.014. Epub 2016 Jun 2.
To develop and implement an efficient reconstruction technique to improve accelerated multi-channel multi-contrast MRI.
The vectorial total generalized variation (TGV) operator is used as a regularizer for the sensitivity encoding (SENSE) technique to improve image quality of multi-channel multi-contrast MRI. The alternating direction method of multipliers (ADMM) is used to efficiently reconstruct the data. The performance of the proposed method (MC-TGV-SENSE) is assessed on two healthy volunteers at several acceleration factors.
As demonstrated on the in vivo results, MC-TGV-SENSE had the lowest root-mean-square error (RMSE), highest structural similarity index, and best visual quality at all acceleration factors, compared to other methods under consideration. MC-TGV-SENSE yielded up to 17.3% relative RMSE reduction compared to the widely used total variation regularized SENSE. Furthermore, we observed that the reconstruction time of MC-TGV-SENSE is reduced by approximately a factor of two with comparable RMSEs by using the proposed ADMM-based algorithm as opposed to the more commonly used Chambolle-Pock primal-dual algorithm for the TGV-based reconstruction.
MC-TGV-SENSE is a better alternative than the existing reconstruction methods for accelerated multi-channel multi-contrast MRI. The proposed method exploits shared information among the images (MC), mitigates staircasing artifacts (TGV), and uses the encoding power of multiple receiver coils (SENSE).
开发并实施一种高效的重建技术,以改进加速多通道多对比磁共振成像(MRI)。
将矢量全广义变分(TGV)算子用作灵敏度编码(SENSE)技术的正则化项,以提高多通道多对比MRI的图像质量。采用乘子交替方向法(ADMM)对数据进行高效重建。在两名健康志愿者身上,以多种加速因子评估了所提出方法(MC-TGV-SENSE)的性能。
体内结果表明,与其他所考虑的方法相比,MC-TGV-SENSE在所有加速因子下均具有最低的均方根误差(RMSE)、最高的结构相似性指数和最佳的视觉质量。与广泛使用的总变分正则化SENSE相比,MC-TGV-SENSE的相对RMSE降低了高达17.3%。此外,我们观察到,通过使用所提出的基于ADMM的算法,与更常用的基于TGV重建的Chambolle-Pock原始对偶算法相比,MC-TGV-SENSE的重建时间减少了约一半,而RMSE相当。
对于加速多通道多对比MRI,MC-TGV-SENSE是比现有重建方法更好的选择。所提出的方法利用了图像之间的共享信息(MC),减轻了阶梯状伪影(TGV),并利用了多个接收线圈的编码能力(SENSE)。
