基于模型的心电图门控心脏(18)F-FDG PET图像分析,以评估左心室几何形态和收缩功能。
Model-based analysis of electrocardiography-gated cardiac (18)F-FDG PET images to assess left ventricular geometry and contractile function.
作者信息
Khorsand Aliasghar, Graf Senta, Frank Herbert, Kletter Kurt, Sochor Heinz, Maurer Gerald, Schuster Ernst, Globits Sebastian, Dudczak Robert, Porenta Gerold
机构信息
Department of Cardiology, University of Vienna, Vienna, Austria.
出版信息
J Nucl Med. 2003 Nov;44(11):1741-6.
UNLABELLED
This study presents and evaluates a model-based image analysis method to calculate from gated cardiac (18)F-FDG PET images diastolic and systolic volumes, ejection fraction, and myocardial mass of the left ventricle. The accuracy of these estimates was delineated using measurements obtained by MRI, which was considered the reference standard because of its high spatial resolution.
METHODS
Twenty patients (18 men, 2 women; mean age +/- SD, 59 +/- 12 y) underwent electrocardiography-gated cardiac PET and MRI to acquire a set of systolic and diastolic short-axis images covering the heart from apex to base. For PET images, left ventricular radius and wall thickness were estimated by model-based nonlinear regression analysis applied to the observed tracer concentration along radial rays. Endocardial and epicardial contours were derived from these estimates, and left ventricular volumes, ejection fraction, and myocardial mass were calculated. For MR images, an expert manually drew contours.
RESULTS
Left ventricular volumes by PET and MRI were 101 +/- 60 mL and 112 +/- 93 mL, respectively, for end-systolic volume and 170 +/- 68 mL and 189 +/- 99 mL, respectively, for end-diastolic volume. Ejection fraction was 44% +/- 13% by PET and 46% +/- 18% by MRI. The left ventricular mass by PET and MRI was 196 +/- 44 g and 200 +/- 46 g, respectively. PET and MRI measurements were not statistically significant. A significant correlation was observed between PET and MRI for calculation of end-systolic volumes (r = 0.93, SEE = 23.4, P < 0.0001), end-diastolic volumes (r = 0.92, SEE = 26.7, P < 0.0001), ejection fraction (r = 0.85, SEE = 7.4, P < 0.0001), and left ventricular mass (r = 0.75, SEE = 29.6, P < 0.001).
CONCLUSION
Model-based analysis of gated cardiac PET images permits an accurate assessment of left ventricular volumes, ejection fraction, and myocardial mass. Cardiac PET may thus offer a near-simultaneous assessment of myocardial perfusion, metabolism, and contractile function.
未标注
本研究提出并评估了一种基于模型的图像分析方法,用于从门控心脏(18)F-FDG PET图像计算左心室的舒张期和收缩期容积、射血分数以及心肌质量。使用MRI获得的测量值来确定这些估计值的准确性,由于MRI具有高空间分辨率,因此被视为参考标准。
方法
20例患者(18例男性,2例女性;平均年龄±标准差,59±12岁)接受了心电图门控心脏PET和MRI检查,以获取一组从心尖到心底覆盖心脏的收缩期和舒张期短轴图像。对于PET图像,通过基于模型的非线性回归分析对沿径向射线观察到的示踪剂浓度进行估计,从而得出左心室半径和壁厚度。从这些估计值中得出心内膜和心外膜轮廓,并计算左心室容积、射血分数和心肌质量。对于MR图像,由专家手动绘制轮廓。
结果
PET和MRI测得的左心室容积,收缩末期容积分别为101±60 mL和112±93 mL,舒张末期容积分别为170±68 mL和189±99 mL。PET测得的射血分数为44%±13%,MRI测得的为46%±18%。PET和MRI测得的左心室质量分别为196±44 g和200±46 g。PET和MRI测量结果无统计学差异。在计算收缩末期容积(r = 0.93,标准误 = 23.4,P < 0.0001)、舒张末期容积(r = 0.92,标准误 = 26.7,P < 0.0001)、射血分数(r = 0.85,标准误 = 7.4,P < 0.0001)和左心室质量(r = 0.75,标准误 = 29.6,P < 0.001)方面,PET和MRI之间存在显著相关性。
结论
基于模型的门控心脏PET图像分析能够准确评估左心室容积、射血分数和心肌质量。因此,心脏PET可能提供心肌灌注、代谢和收缩功能的近乎同时评估。
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