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3T 时人体血液横向弛豫的经验模型改善了 MRI 血氧测定法。

Empirical model of human blood transverse relaxation at 3 T improves MRI T oximetry.

作者信息

Bush Adam, Borzage Matthew, Detterich John, Kato Roberta M, Meiselman Herbert J, Coates Thomas, Wood John C

机构信息

Division of Cardiology, Children's Hospital Los Angeles, Los Angeles, California, USA.

Department of Biomedical Engineering, University of Southern California, Los Angeles, California, USA.

出版信息

Magn Reson Med. 2017 Jun;77(6):2364-2371. doi: 10.1002/mrm.26311. Epub 2016 Jul 6.

DOI:10.1002/mrm.26311
PMID:27385283
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5218988/
Abstract

PURPOSE

We sought a human blood T -oximetery calibration curve over the wide range of hematocrits commonly found in anemic patients applicable with T relaxation under spin tagging (TRUST).

METHODS

Blood was drawn from five healthy control subjects. Ninety-three in vitro blood transverse relaxation (T ) measurements were performed at 37°C over a broad range of hematocrits (10-55%) and oxygen saturations (14-100%) at 3 Tesla (T). In vivo TRUST was performed on 35 healthy African American control subjects and 11 patients with chronic anemia syndromes.

RESULTS

1/T rose linearly with hematocrit (r  = 0.96), for fully saturated blood. Upon desaturation, 1/T rose linearly with the square of the oxygen extraction, (1-Y) , and the slope was linearly proportional to hematocrit (r  = 0.88). The resulting bilinear model between 1/T , (1-Y) , and hematocrit had a combined r of 0.96 and a coefficient of variation of 6.1%. Using the in vivo data, the bilinear model had significantly lower bias and variability than existing calibrations, particularly for low hematocrits. In vivo Bland Altman analysis demonstrated clinically relevant bias that was -6% (absolute saturation) for hematocrits near 30% and rose to + 6% for hematocrits near 45%.

CONCLUSION

This work introduces a robust bilinear calibration model that should be used for MRI oximetry. Magn Reson Med 77:2364-2371, 2017. © 2016 International Society for Magnetic Resonance in Medicine.

摘要

目的

我们寻求一条适用于自旋标记下T弛豫(TRUST)的人体血液T血氧定量校准曲线,该曲线适用于贫血患者常见的广泛血细胞比容范围。

方法

从五名健康对照受试者采集血液。在37°C下,于3特斯拉(T)磁场中,对广泛的血细胞比容范围(10 - 55%)和氧饱和度范围(14 - 100%)进行了93次体外血液横向弛豫(T)测量。对35名健康非裔美国对照受试者和11名慢性贫血综合征患者进行了体内TRUST测量。

结果

对于完全饱和的血液,1/T随血细胞比容呈线性上升(r = 0.96)。去饱和后,1/T随氧摄取量的平方(1 - Y)呈线性上升,且斜率与血细胞比容呈线性比例关系(r = 0.88)。所得的1/T、(1 - Y)和血细胞比容之间的双线性模型的综合r为0.96,变异系数为6.1%。使用体内数据时,双线性模型的偏差和变异性明显低于现有校准方法,尤其是对于低血细胞比容情况。体内布兰德-奥特曼分析表明,临床相关偏差在血细胞比容接近30%时为 - 6%(绝对饱和度),在血细胞比容接近45%时升至 + 6%。

结论

这项工作引入了一种稳健的双线性校准模型,应将其用于MRI血氧定量分析。《磁共振医学》77:2364 - 2371, 2017。© 2016国际磁共振医学学会。

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