利用多探测器 CT 三维数据集分析对心肌灌注进行容积定量：与核灌注成像的比较。

Volumetric quantification of myocardial perfusion using analysis of multi-detector computed tomography 3D datasets: comparison with nuclear perfusion imaging.

机构信息

University of Chicago Medical Center, Chicago, IL 60637, USA.

出版信息

Eur Radiol. 2010 Feb;20(2):337-47. doi: 10.1007/s00330-009-1552-x. Epub 2009 Aug 27.

DOI:10.1007/s00330-009-1552-x

PMID:19711083

Abstract

BACKGROUND

Although the ability of multi-detector computed tomography (MDCT) to detect perfusion abnormalities associated with acute and chronic myocardial infarction (MI) has been demonstrated, this methodology is based on visual interpretation of selected 2D slices.

OBJECTIVES

We sought to develop a new technique for quantitative volumetric analysis of myocardial perfusion from 3D datasets and test it against resting nuclear myocardial perfusion imaging (NMPI) reference.

METHODS

We studied 44 patients undergoing CTCA: a control group of 15 patients and a study group of 29 patients. MDCT datasets acquired for CTCA were analyzed using custom software designed to: (1) generate bull's eye display of myocardial perfusion and (2) calculate a quantitative index of extent and severity of perfusion abnormality, Q(H), for 16 volumetric myocardial segments. Visual interpretation of MDCT-derived bull's eyes was compared with rest NMPI scores using kappa statistics of agreement on a coronary territory and patient basis. Quantitative MDCT perfusion data were correlated with rest NMPI summed scores and used for objective detection of perfusion defects.

RESULTS

Visual analysis of MDCT-derived bull's eyes accurately detected perfusion defects in agreement with NMPI (kappa = 0.70 by territory; 0.79 by patient). Quantitative data were in good agreement with NMPI, as reflected by: (1) correlation of 0.87 (territory) and 0.84 (patient) between summed Q(H) and NMPI scores, (2) area under ROC curve 0.87 with sensitivity of 0.79-0.92, specificity 0.83-0.91, and accuracy 0.83-0.89 for objective detection of abnormalities.

CONCLUSIONS

Our new technique for volumetric analysis of 3D MDCT images allows accurate objective detection of perfusion defects. This perfusion information can be obtained without additional radiation or contrast load, and may aid in elucidating the significance of coronary lesions.

摘要

背景

多排螺旋 CT（MDCT）已被证实能够检测与急性和慢性心肌梗死（MI）相关的灌注异常，但这种方法是基于对选定的 2D 切片进行视觉解释。

目的

我们试图开发一种新的技术，从 3D 数据集进行心肌灌注的定量容积分析，并将其与静息核素心肌灌注成像（NMPI）参考进行测试。

方法

我们研究了 44 例接受 CTCA 的患者：对照组 15 例，研究组 29 例。使用专门设计的软件分析 CTCA 获得的 MDCT 数据集，该软件用于：（1）生成心肌灌注的牛眼显示；（2）计算灌注异常程度和严重程度的定量指数 Q(H)，用于 16 个容积心肌节段。使用基于冠状血管和患者的一致性kappa 统计对 MDCT 衍生的牛眼的视觉解释与静息 NMPI 评分进行比较。定量 MDCT 灌注数据与静息 NMPI 总和评分相关联，并用于客观检测灌注缺陷。

结果

MDCT 衍生的牛眼的视觉分析准确地检测到与 NMPI 一致的灌注缺陷（区域内的kappa = 0.70；患者内的kappa = 0.79）。定量数据与 NMPI 非常吻合，反映在：（1）总和 Q(H)和 NMPI 评分之间的相关性为 0.87（区域）和 0.84（患者）；（2）ROC 曲线下面积为 0.87，敏感性为 0.79-0.92，特异性为 0.83-0.91，准确性为 0.83-0.89，用于客观检测异常。

结论

我们用于 3D MDCT 图像容积分析的新技术允许准确客观地检测灌注缺陷。这种灌注信息可以在不增加辐射或对比剂负荷的情况下获得，并且可能有助于阐明冠状动脉病变的意义。

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利用多探测器 CT 三维数据集分析对心肌灌注进行容积定量：与核灌注成像的比较。

Volumetric quantification of myocardial perfusion using analysis of multi-detector computed tomography 3D datasets: comparison with nuclear perfusion imaging.

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