MRI R2* 与高温超导磁强计测量输血致铁过载患者肝铁浓度。
Measurement of the liver iron concentration in transfusional iron overload by MRI R2* and by high-transition-temperature superconducting magnetic susceptometry.
机构信息
Weill Cornell Medical College, New York, NY, USA.
Columbia University Medical Center, New York, NY, USA.
出版信息
Clin Imaging. 2019 May-Jun;55:65-70. doi: 10.1016/j.clinimag.2019.01.012. Epub 2019 Jan 31.
PURPOSE
To compare measurement of the liver iron concentration in patients with transfusional iron overload by magnetic resonance imaging (MRI), using R2*, and by magnetic susceptometry, using a new high-transitiontemperature (high-Tc; operating at 77 K, cooled by liquid nitrogen) superconducting magnetic susceptometer.
METHODS
In 28 patients with transfusional iron overload, 43 measurements of the liver iron concentration were made by both R2* and high-Tc magnetic susceptometry.
RESULTS
Measurements of the liver iron concentration by R2* and high-Tc magnetic susceptometry were significantly correlated when comparing all patients (Pearson's r = 0.91, p < 0.0001) and those with results by susceptometry >7 mg Fe/g liver, dry weight (r = 0.93, p = 0.006). In lower ranges of liver iron, no significant correlations between the two methods were found (0 to <3.2 mg Fe/g liver, dry weight: r = 0.2, p = 0.37; 3.2 to 7 mg Fe/g liver, dry weight: r = 0.41; p = 0.14).
CONCLUSION
The lack of linear correlation between R2* and magnetic susceptibility measurements of the liver iron concentration with minimal or modest iron overload may be due to the effects of fibrosis and other cellular pathology that interfere with R2* but do not appreciably alter magnetic susceptibility.
目的
比较磁共振成像(MRI)的 R2*与新型高温超导(高 Tc;在 77 K 下运行,由液氮冷却)超导磁强计测量输血性铁过载患者肝脏铁浓度的差异。
方法
对 28 例输血性铁过载患者的 43 次肝脏铁浓度进行 R2*和高 Tc 磁强计测量。
结果
当比较所有患者(Pearson r=0.91,p<0.0001)和磁强计测量结果大于 7mg Fe/g 肝、干重的患者(r=0.93,p=0.006)时,R2*和高 Tc 磁强计测量的肝脏铁浓度均显著相关。在肝脏铁浓度较低的范围内,两种方法之间没有显著相关性(0 至<3.2mg Fe/g 肝,干重:r=0.2,p=0.37;3.2 至 7mg Fe/g 肝,干重:r=0.41,p=0.14)。
结论
在轻度或中度铁过载时,R2与肝脏铁浓度的磁化率测量之间缺乏线性相关性,这可能是由于纤维化和其他干扰 R2但不会显著改变磁化率的细胞病理学的影响所致。
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