Correcting surface coil intensity inhomogeneity improves quantitative analysis of cardiac magnetic resonance images

2008 5th IEEE International Symposium on Biomedical Imaging: From Nano to Macro Pub Date : 2008-05-14 DOI:10.1109/ISBI.2008.4541274

L. Hsu, A. Aletras, A. Arai

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引用次数: 14

Abstract

Quantitative analysis of cardiac magnetic resonance (MR) images is important in bringing objectivity in diagnosis of myocardial abnormalities. Prior to quantitative analysis, it is necessary to correct signal intensity inhomogeneity due to the non-uniform surface coil sensitivity profile. We present a method using non-rigid body image warping and polynomial function fitting to correct this intensity bias on imperfectly registered cardiac MR images. The method was validated on normal human MR images and significantly reduced signal variation from 20.0% to 3.9% in regions of normal myocardium. In MR images of acute myocardial infarction in dogs, signal intensity analysis detected edematous myocardium as 35.9% brighter than normal myocardium on T2- weighted images (p=0.002) while control regions of interest on PD-weighted images were uniform within 2.2% (p=NS). The proposed approach effectively corrected surface coil related signal intensity inhomogeneity in imperfect datasets and allowed confident detection of subtle pathophysiological abnormalities.

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纠正表面线圈强度不均匀性提高了心脏磁共振图像的定量分析

心脏磁共振图像的定量分析对于客观诊断心肌异常具有重要意义。在定量分析之前，有必要纠正由于表面线圈灵敏度分布不均匀而导致的信号强度不均匀性。我们提出了一种使用非刚体图像扭曲和多项式函数拟合的方法来纠正不完美配准的心脏MR图像上的这种强度偏差。该方法在正常人的MR图像上得到了验证，并将正常心肌区域的信号变异从20.0%显著降低到3.9%。在犬急性心肌梗死的MR图像中，信号强度分析发现，在T2加权图像上，水肿心肌比正常心肌亮35.9% (p=0.002)，而在pd加权图像上，对照组感兴趣区域均匀分布在2.2%以内(p=NS)。所提出的方法有效地纠正了表面线圈相关的信号强度不均匀性，并允许对细微的病理生理异常进行自信的检测。

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2008 5th IEEE International Symposium on Biomedical Imaging: From Nano to Macro

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