动脉自旋标记 MRI 评估天然和移植肾脏灌注。
Arterial spin labeling MRI for assessment of perfusion in native and transplanted kidneys.
机构信息
Department of Medical Physics, University of Wisconsin-Madison, Wisconsin Institute for Medical Research, Madison, WI 53705-2275, USA.
出版信息
Magn Reson Imaging. 2011 Jan;29(1):74-82. doi: 10.1016/j.mri.2010.07.018. Epub 2010 Sep 17.
PURPOSE
To apply a magnetic resonance arterial spin labeling (ASL) technique to evaluate kidney perfusion in native and transplanted kidneys.
MATERIALS AND METHODS
This study was compliant with the Health Insurance Portability and Accountability Act and approved by the institutional review board. Informed consent was obtained from all subjects. Renal perfusion exams were performed at 1.5 T in a total of 25 subjects: 10 with native and 15 with transplanted kidneys. A flow-sensitive alternating inversion recovery (FAIR) ASL sequence was performed with respiratory triggering in all subjects and under free-breathing conditions in five transplant subjects. Thirty-two control/tag pairs were acquired and processed using a single-compartment model. Perfusion in native and transplanted kidneys was compared above and below an estimated glomerular filtration rate (eGFR) threshold of 60 ml/min per 1.73 m² and correlations with eGFR were determined.
RESULTS
In many of the transplanted kidneys, major feeding vessels in the coronal plane required a slice orientation sagittal to the kidney. Renal motion during the examination was observed in native and transplant subjects and was corrected with registration. Cortical perfusion correlated with eGFR in native (r=0.85, P=.002) and transplant subjects (r=0.61, P=.02). For subjects with eGFR >60 ml/min per 1.73 m², native kidneys demonstrated greater cortical (P=.01) and medullary (P=.04) perfusion than transplanted kidneys. For subjects with eGFR <60 ml/min per 1.73 m², native kidneys demonstrated greater medullary perfusion (P=.04) compared to transplanted kidneys. Free-breathing acquisitions provided renal perfusion measurements that were slightly lower compared to the coached/triggered technique, although no statistical differences were observed.
CONCLUSION
In conclusion, FAIR-ASL was able to measure renal perfusion in subjects with native and transplanted kidneys, potentially providing a clinically viable technique for monitoring kidney function.
目的
应用磁共振动脉自旋标记(ASL)技术评估天然和移植肾脏的灌注。
材料与方法
本研究符合《健康保险流通与责任法案》,并获得机构审查委员会的批准。所有受试者均获得知情同意。在总共 25 名受试者中,10 名患有原发性肾脏疾病,15 名患有移植性肾脏疾病,在 1.5T 下进行了肾脏灌注检查。所有受试者均采用呼吸触发的流动敏感反转恢复(FAIR)ASL 序列,5 名移植患者在自由呼吸条件下进行。采集并处理了 32 对控制/标记对,使用单室模型进行处理。在估计肾小球滤过率(eGFR)阈值为 60ml/min/1.73m²以上和以下比较了天然和移植肾脏的灌注,并确定了与 eGFR 的相关性。
结果
在许多移植肾脏中,冠状位的主要供血血管需要沿肾脏矢状位的层面进行定位。在天然和移植患者中观察到检查过程中的肾脏运动,并通过注册进行了校正。皮质灌注与天然(r=0.85,P=.002)和移植(r=0.61,P=.02)受试者的 eGFR 相关。对于 eGFR>60ml/min/1.73m²的受试者,天然肾脏的皮质(P=.01)和髓质(P=.04)灌注均大于移植肾脏。对于 eGFR<60ml/min/1.73m²的受试者,天然肾脏的髓质灌注(P=.04)大于移植肾脏。与指导/触发技术相比,自由呼吸采集提供的肾脏灌注测量值略低,但未观察到统计学差异。
结论
总之,FAIR-ASL 能够测量天然和移植肾脏的灌注,可能为监测肾脏功能提供一种可行的临床技术。
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