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注射速率对对比增强磁共振血管造影图像质量的影响:调制传递函数分析。

Effect of injection rate on contrast-enhanced MR angiography image quality: Modulation transfer function analysis.

作者信息

Clark Toshimasa J, Wilson Gregory J, Maki Jeffrey H

机构信息

Radiology, University of Colorado Denver, Aurora, Colorado, USA.

Radiology, University of Washington, Seattle, Washington, USA.

出版信息

Magn Reson Med. 2017 Jul;78(1):357-369. doi: 10.1002/mrm.26349. Epub 2016 Aug 1.

DOI:10.1002/mrm.26349
PMID:27478136
Abstract

PURPOSE

Contrast-enhanced (CE)-MRA optimization involves interactions of sequence duration, bolus timing, contrast recirculation, and both R relaxivity and R2*-related reduction of signal. Prior data suggest superior image quality with slower gadolinium injection rates than typically used.

METHODS

A computer-based model of CE-MRA was developed, with contrast injection, physiologic, and image acquisition parameters varied over a wide gamut. Gadolinium concentration was derived using Verhoeven's model with recirculation, R and R2* calculated at each time point, and modulation transfer curves used to determine injection rates, resulting in optimal resolution and image contrast for renal and carotid artery CE-MRA. Validation was via a vessel stenosis phantom and example patients who underwent carotid CE-MRA with low effective injection rates.

RESULTS

Optimal resolution for renal and carotid CE-MRA is achieved with injection rates between 0.5 to 0.9 mL/s and 0.2 to 0.3 mL/s, respectively, dependent on contrast volume. Optimal image contrast requires slightly faster injection rates. Expected signal-to-noise ratio varies with both contrast volume and cardiac output. Simulated vessel phantom and clinical carotid CE-MRA exams at an effective contrast injection rate of 0.4 to 0.5 mL/s demonstrate increased resolution.

CONCLUSION

Optimal image resolution is achieved at intuitively low, effective injection rates (0.2-0.9 mL/s, dependent on imaging parameters and contrast injection volume). Magn Reson Med 78:357-369, 2017. © 2016 International Society for Magnetic Resonance in Medicine.

摘要

目的

对比增强(CE)磁共振血管造影(MRA)的优化涉及序列持续时间、团注时间、对比剂再循环以及R弛豫率和与R2*相关的信号降低之间的相互作用。先前的数据表明,与通常使用的钆注射速率相比,较慢的注射速率可获得更好的图像质量。

方法

建立了基于计算机的CE-MRA模型,对比剂注射、生理和图像采集参数在很宽的范围内变化。使用Verhoeven模型并考虑再循环来推导钆浓度,在每个时间点计算R和R2*,并使用调制传递曲线来确定注射速率,从而为肾和颈动脉CE-MRA实现最佳分辨率和图像对比度。通过血管狭窄模型和接受低有效注射速率颈动脉CE-MRA的示例患者进行验证。

结果

肾和颈动脉CE-MRA的最佳分辨率分别在注射速率为0.5至0.9 mL/s和0.2至0.3 mL/s之间实现,这取决于对比剂体积。最佳图像对比度需要稍快的注射速率。预期的信噪比随对比剂体积和心输出量而变化。在有效对比剂注射速率为0.4至0.5 mL/s的模拟血管模型和临床颈动脉CE-MRA检查中显示分辨率提高。

结论

在直观上较低的有效注射速率(0.2 - 0.9 mL/s,取决于成像参数和对比剂注射体积)下可实现最佳图像分辨率。《磁共振成像杂志》78:357 - 369, 2017。© 2016国际磁共振医学学会。

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