缩小视野与欠采样并行采集相结合,用于全动态视野的介入成像。
Reduced field of view and undersampled PR combined for interventional imaging of a fully dynamic field of view.
作者信息
Peters Dana C, Guttman Michael A, Dick Alexander J, Raman Venkatesh K, Lederman Robert J, McVeigh Elliot R
机构信息
Laboratory of Cardiac Energetics, NHLBI, National Institutes of Health, DHHS, Bethesda, Maryland, USA.
出版信息
Magn Reson Med. 2004 Apr;51(4):761-7. doi: 10.1002/mrm.20037.
Active catheter imaging was investigated using real-time undersampled projection reconstruction (PR) combined with the temporal filtering technique of reduced field of view (rFOV). Real-time rFOV processing was interactively enabled during highly undersampled catheter imaging, resulting in improved artifact suppression with better temporal resolution than that obtained by view-sharing. Imaging with 64 to 32 projections provided a resolution of 2 x 2 x 8 mm, and four to eight true frames per second. Image artifacts were reduced when rFOV processing was applied to the undersampled images. A comparison with Cartesian rFOV showed that PR image quality is less susceptible to aliasing that results from rFOV imaging with a wholly dynamic outer FOV. Simulations and MRI experiments demonstrated that PR rFOV provides significant artifact suppression, even for a fully dynamic FOV. The near doubling of temporal resolution that is possible with PR rFOV permits accurate monitoring of highly dynamic events, such as catheter movements, and arrhythmias, such as ventricular ectopy.
使用实时欠采样投影重建(PR)结合缩小视野(rFOV)的时间滤波技术对有源导管成像进行了研究。在高度欠采样的导管成像过程中,实时rFOV处理可交互式启用,与视图共享相比,可更好地抑制伪影并提高时间分辨率。采用64至32个投影进行成像,分辨率为2×2×8毫米,每秒有4至8个真实帧。将rFOV处理应用于欠采样图像时,图像伪影减少。与笛卡尔rFOV的比较表明,PR图像质量受rFOV成像(具有完全动态的外部视野)导致的混叠影响较小。模拟和MRI实验表明,即使对于完全动态的视野,PR rFOV也能显著抑制伪影。PR rFOV可使时间分辨率几乎提高一倍,从而能够准确监测高度动态事件,如导管移动,以及心律失常,如室性早搏。
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