Peters Dana C, Lederman Robert J, Dick Alexander J, Raman Venkatesh K, Guttman Michael A, Derbyshire J Andrew, McVeigh Elliot R
Laboratory of Cardiac Energetics, National Institutes of Health, Bethesda, Maryland 20892-0161, USA.
Magn Reson Med. 2003 Feb;49(2):216-22. doi: 10.1002/mrm.10390.
In this study undersampled projection reconstruction (PR) was used for rapid catheter imaging in the heart, employing steady-state free precession (SSFP) contrast. Active catheters and phased-array coils were used for combined imaging of anatomy and catheter position in swine. Real-time imaging of catheter position was performed with relatively high spatial and temporal resolution, providing 2 x 2 x 8 mm spatial resolution and four to eight frames per second. Two interactive features were introduced. The number of projections (Np) was adjusted interactively to trade off imaging speed and artifact reduction, allowing acquisition of high-quality or high-frame-rate images. Thin-slice imaging was performed, with interactive requests for thick-slab projection images of the signal received solely from the active catheter. Briefly toggling on catheter-only projection images was valuable for verifying that the catheter tip was contained within the selected slice, or for locating the catheter when part of it was outside the selected slice.
在本研究中,欠采样投影重建(PR)用于心脏的快速导管成像,采用稳态自由进动(SSFP)造影剂。使用有源导管和相控阵线圈对猪的解剖结构和导管位置进行联合成像。以相对较高的空间和时间分辨率对导管位置进行实时成像,提供2×2×8毫米的空间分辨率和每秒四至八帧的帧率。引入了两个交互式功能。可交互式调整投影数量(Np),以在成像速度和伪影减少之间进行权衡,从而获取高质量或高帧率图像。进行薄层成像时,可交互式请求仅来自有源导管接收信号的厚层投影图像。短暂切换到仅导管投影图像,对于验证导管尖端是否包含在所选切片内,或当导管部分位于所选切片之外时定位导管很有价值。