Parametric Imaging of Myocardial Blood Flow with 15O-Water and PET Using the Basis Function Method.

Watabe H; Jino H; Kawachi N; Teramoto N; Hayashi T; Ohta Y; Iida H

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Parametric Imaging of Myocardial Blood Flow with 15O-Water and PET Using the Basis Function Method.

机译：使用基础函数方法用15O-水和PET对心肌血流进行参数化成像。

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Regional myocardial blood flow (MBF) can be measured with (15)O-water and PET using the 1-tissue-compartment model with perfusable tissue fraction, which provides an MBF value that is free from the partial-volume effect. Studies with (15)O-water have several advantages, such as the ability to repeat a scan. However, because of the short scanning time and the small distribution volume of (15)O-water in the myocardium, the image quality of (15)O-water is limited, impeding the computation of MBF and perfusable tissue fraction at the voxel level. We implemented the basis function method for generating parametric images of MBF, perfusable tissue fraction, and arterial blood volume (V(a)) with (15)O-water and PET. The basis function method linearizes the solution of the 1-tissue-compartment model, which results in a computationally much faster method than the conventional nonlinear least-squares fitting method in estimating the parameters. METHODS: To validate the basis function method, we performed a seriesof PET studies on miniature pigs (n = 7). After acquisition of the transmission scan for attenuation correction and the (15)O-CO scan for obtaining the blood-pool image, repeated PET scans with (15)O-water were obtained with varying doses of adenosine or CGS-21680 (selective adenosine A(2a) receptor agonist). MBF, perfusable tissue fraction, and V(a) values of the myocardial region for each scan were computed using the basis function method and the nonlinear least-squares method, and the parameters estimated by the 2 methods were compared. RESULTS: MBF images generated by the basis function method demonstrated an increase in blood flow after administration of adenosine or CGS-21680. The MBF values estimated by the basis function method and by the nonlinear least-squares method correlated strongly. CONCLUSION: The basis function method produces parametric images of MBF, perfusable tissue fraction, and V(a) with (15)O-water and PET. These images will be useful in detecting regional myocardial perfusion abnormalities.

机译：区域心肌血流量（MBF）可以使用（15）O-水和PET使用具有可灌注组织分数的1组织隔室模型进行测量，该模型可提供没有部分体积效应的MBF值。用（15）O水进行研究具有多个优点，例如重复扫描的能力。然而，由于扫描时间短和心肌中（15）O-水的分布量小，（15）O-水的图像质量受到限制，从而妨碍了在体素水平上计算MBF和可灌注组织分数。我们实现了使用（15）O-水和PET生成MBF，可灌注组织分数和动脉血容量（V（a））的参数化图像的基本函数方法。基本函数方法线性化了1个组织隔室模型的解，这导致在计算参数方面比传统的非线性最小二乘拟合法在计算上快得多。方法：为了验证基本功能方法，我们对小型猪（n = 7）进行了一系列PET研究。在获得用于衰减校正的透射扫描以及用于获得血池图像的（15）O-CO扫描之后，使用不同剂量的腺苷或CGS-21680（选择性腺苷）进行了用（15）O-水进行的重复PET扫描。 A（2a）受体激动剂）。使用基函数方法和非线性最小二乘法计算每次扫描的MBF，可灌注组织分数和心肌区域的V（a）值，并比较两种方法估计的参数。结果：通过基函数法生成的MBF图像显示出腺苷或CGS-21680给药后血流量增加。通过基函数方法和非线性最小二乘法估计的MBF值具有很强的相关性。结论：基函数方法可生成带有（15）O水和PET的MBF，可灌注组织分数和V（a）的参数图像。这些图像将有助于检测局部心肌灌注异常。

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《The Journal of Nuclear Medicine》 |2005年第7期|共6页
作者
Watabe H; Jino H; Kawachi N; Teramoto N; Hayashi T; Ohta Y; Iida H;
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正文语种 eng
中图分类特种医学;
关键词
Water; upper case oh; Tissues; Positron-Emission Tomography; physiological aspects; 水; 组织;

机译：水;大写;组织;正电子发射断层扫描;生理方面;水;组织;

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1. Parametric Imaging of Myocardial Blood Flow with 15O-Water and PET Using the Basis Function Method. [J] . Watabe H, Jino H, Kawachi N, The Journal of Nuclear Medicine . 2005,第7期

机译：使用基础函数方法用15O-水和PET对心肌血流进行参数化成像。
2. Evaluation of Basis Function and Linear Least Squares Methods for Generating Parametric Blood Flow Images Using 15O-Water and Positron Emission Tomography [J] . Ronald Boellaard PhD, Paul Knaapen MD, Abraham Rijbroek MD, Molecular Imaging and Biology . 2005,第4期

机译：基于15 O-水和正电子发射断层扫描技术生成参数血流图像的基函数和线性最小二乘法方法的评估
3. Evaluation of basis function and linear least squares methods for generating parametric blood flow images using 15O-water and Positron Emission Tomography. [J] . Boellaard R, Knaapen P, Rijbroek A, Molecular imaging and biology: MIB : the official publication of the Academy of Molecular Imaging . 2005,第4期

机译：评估使用15O-水和正电子发射断层摄影术生成参数化血流图像的基函数和线性最小二乘法。
4. Development of fully automatic technique to parametric images of myocardial blood flow with /sup 15/O-water and positron emission tomography using basis function method [C] . Watabe, H., Koshino, . 2005

机译：/ sup 15 / O-水和正电子发射断层扫描技术基于基函数方法的全自动技术开发心肌血流参数化图像
5. Kinetic Model Based Factor Analysis of Cardiac Rubidium-82 PET Images for Improved Accuracy of Quantitative Myocardial Blood Flow Measurement . [D] . Klein, Ran. 2010

机译：基于动力学模型的心脏Rub 82 PET图像因子分析提高定量心肌血流测量的准确性。
6. Quantitative relationship between coronary artery calcium score and hyperemic myocardial blood flow as assessed by hybrid 15O-water PET/CT imaging in patients evaluated for coronary artery disease [O] . Ibrahim Danad, Pieter G. Raijmakers, Yolande E. Appelman, -1

机译：通过混合15O-水PET / CT成像评估冠状动脉疾病患者的冠状动脉钙化评分与充血性心肌血流之间的定量关系
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Parametric Imaging of Myocardial Blood Flow with 15O-Water and PET Using the Basis Function Method.

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