Quantification of myocardial extracellular volume without blood sampling

Wensu Chen, Alessandro Faragli, Collin Goetze, Victoria Zieschang, Karl Jakob Weiss, Djawid Hashemi, Rebecca Beyer, Lorena Hafermann, Philipp Stawowy, Sebastian Kelle, Patrick Doeblin
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Abstract

Aims Cardiac magnetic resonance (CMR) T1 relaxation time mapping is an established technique primarily used to identify diffuse interstitial fibrosis and oedema. The myocardial extracellular volume (ECV) can be calculated from pre- and post-contrast T1 relaxation times and is a reproducible parametric index of the proportion of volume occupied by non-cardiomyocyte components in myocardial tissue. The conventional calculation of the ECV requires blood sampling to measure the haematocrit (HCT). Given the high variability of the HCT, the blood collection is recommended within 24 h of the CMR scan, limiting its applicability and posing a barrier to the clinical routine use of ECV measurements. In recent years, several research groups have proposed a method to determine the ECV by CMR without blood sampling. This is based on the inverse relationship between the T1 relaxation rate (R1) of blood and the HCT. Consequently, a ‘synthetic’ HCT could be estimated from the native blood R1, avoiding blood sampling. Methods and results We performed a review and meta-analysis of published studies on synthetic ECV, as well as a secondary analysis of previously published data to examine the effect of the chosen regression modell on bias. While, overall, a good correlation and little bias between synthetic and conventional ECV were found in these studies, questions regarding its accuracy remain. Conclusion Synthetic HCT and ECV can provide a ‘non-invasive’ quantitative measurement of the myocardium’s extracellular space when timely HCT measurements are not available and large alterations in ECV are expected, such as in cardiac amyloidosis. Due to the dependency of T1 relaxation times on the local setup, calculation of local formulas using linear regression is recommended, which can be easily performed using available data.
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不采血的心肌细胞外体积定量
目的心脏磁共振(CMR) T1弛豫时间映射是一种成熟的技术,主要用于鉴别弥漫性间质纤维化和水肿。心肌细胞外体积(ECV)可以从造影前和造影后的T1松弛时间计算出来,是心肌组织中非心肌细胞成分所占体积比例的可重复参数指标。传统的计算ECV需要采血来测量红细胞压积(HCT)。鉴于HCT的高度可变性,建议在CMR扫描后24小时内采血,这限制了其适用性,并对临床常规使用ECV测量造成了障碍。近年来,几个研究小组提出了一种通过CMR无需采血来确定ECV的方法。这是基于血液T1弛豫率(R1)与HCT之间的反比关系。因此,“合成”HCT可以从原生血液R1估计,避免了血液采样。方法和结果我们对已发表的合成ECV研究进行了回顾和荟萃分析,并对先前发表的数据进行了二次分析,以检验所选择的回归模型对偏倚的影响。总的来说,在这些研究中,合成ECV和传统ECV之间存在良好的相关性和很少的偏差,但关于其准确性的问题仍然存在。结论在心肌淀粉样变性时,当无法获得及时的HCT测量和预计ECV有较大变化时,合成HCT和ECV可以提供心肌细胞外空间的“无创”定量测量。由于T1松弛时间依赖于局部设置,建议使用线性回归计算局部公式,这可以使用可用数据轻松执行。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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