Simpson Robin, Keegan Jennifer, Firmin David
J Cardiovasc Magn Reson. 2013 Apr 15;15(1):34. doi: 10.1186/1532-429X-15-34.
Three-directional phase velocity mapping (PVM) is capable of measuring longitudinal, radial and circumferential regional myocardial velocities. Current techniques use Cartesian k-space coverage and navigator-gated high spatial and high temporal resolution acquisitions are long. In addition, prospective ECG-gating means that analysis of the full cardiac cycle is not possible. The aim of this study is to develop a high temporal and high spatial resolution PVM technique using efficient spiral k-space coverage and retrospective ECG-gating. Detailed analysis of regional motion over the entire cardiac cycle, including atrial systole for the first time using MR, is presented in 10 healthy volunteers together with a comprehensive assessment of reproducibility.
A navigator-gated high temporal (21 ms) and spatial (1.4 × 1.4 mm) resolution spiral PVM sequence was developed, acquiring three-directional velocities in 53 heartbeats (100% respiratory-gating efficiency). Basal, mid and apical short-axis slices were acquired in 10 healthy volunteers on two occasions. Regional and transmural early systolic, early diastolic and atrial systolic peak longitudinal, radial and circumferential velocities were measured, together with the times to those peaks (TTPs). Reproducibilities were determined as mean ± SD of the signed differences between measurements made from acquisitions performed on the two days.
All slices were acquired in all volunteers on both occasions with good image quality. The high temporal resolution allowed consistent detection of fine features of motion, while the high spatial resolution allowed the detection of statistically significant regional and transmural differences in motion. Colour plots showing the regional variations in velocity over the entire cardiac cycle enable rapid interpretation of the regional motion within any given slice. The reproducibility of peak velocities was high with the reproducibility of early systolic, early diastolic and atrial systolic peak radial velocities in the mid slice (for example) being -0.01 ± 0.36, 0.20 ± 0.56 and 0.14 ± 0.42 cm/s respectively. Reproducibility of the corresponding TTP values, when normalised to a fixed systolic and diastolic length, was also high (-13.8 ± 27.4, 1.3 ± 21.3 and 3.0 ± 10.9 ms for early systolic, early diastolic and atrial systolic respectively).
Retrospectively gated spiral PVM is an efficient and reproducible method of acquiring 3-directional, high resolution velocity data throughout the entire cardiac cycle, including atrial systole.
三向相速度映射(PVM)能够测量纵向、径向和周向的局部心肌速度。当前技术使用笛卡尔k空间覆盖,而导航门控的高空间和高时间分辨率采集时间较长。此外,前瞻性心电图门控意味着无法对整个心动周期进行分析。本研究的目的是开发一种使用高效螺旋k空间覆盖和回顾性心电图门控的高时间和高空间分辨率PVM技术。在10名健康志愿者中首次使用磁共振成像对整个心动周期的局部运动进行了详细分析,包括心房收缩期,并对可重复性进行了全面评估。
开发了一种导航门控的高时间(21毫秒)和空间(1.4×1.4毫米)分辨率的螺旋PVM序列,在53次心跳中采集三向速度(呼吸门控效率为100%)。在10名健康志愿者身上两次采集心底、心中和心尖短轴切片。测量局部和透壁的收缩早期、舒张早期和心房收缩期的纵向、径向和周向峰值速度,以及达到这些峰值的时间(TTP)。可重复性定义为两天采集测量值之间符号差的平均值±标准差。
两次采集时所有志愿者的所有切片图像质量均良好。高时间分辨率能够一致地检测到精细的运动特征,而高空间分辨率能够检测到运动中具有统计学意义的局部和透壁差异。显示整个心动周期速度局部变化的彩色图能够快速解读任何给定切片内的局部运动。峰值速度的可重复性很高,例如心中切片收缩早期、舒张早期和心房收缩期的径向峰值速度的可重复性分别为-0.01±0.36、0.20±0.56和0.14±0.42厘米/秒。当将相应的TTP值归一化为固定的收缩期和舒张期长度时,其可重复性也很高(收缩早期、舒张早期和心房收缩期分别为-13.8±27.4、1.3±21.3和3.0±10.9毫秒)。
回顾性门控螺旋PVM是一种在整个心动周期(包括心房收缩期)获取三向高分辨率速度数据的有效且可重复的方法。
