Myocardial Deformation Recovery Using a 3D Biventricular Incompressible Model

机译：使用3D双心室不可压缩模型恢复心肌变形

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This paper presents a nonrigid image registration method for cardiac deformation recovery from 3D MR image sequences. The main contribution of this work is that the method is mathematically guaranteed to generate incompressible deformations. This is a desirable property since the myocardium has been shown to be close to incompressible. The method is based on an incompressible deformable model that can include all four cardiac chambers and has a relatively small number of parameters. The myocardium needs to be segmented in an initial frame after which the method automatically determines the tissue deformation everywhere in the myocardium throughout the cardiac cycle. The method has been tested with four 3D cardiac MR image sequences for the left and right ventricles and it has been evaluated against manual segmentation. The volume agreement between the model and the manual segmentation exceeds 90% and the distance between the model and the manually generated endocardial and epicardial surface is 1.65mm on average.

机译：本文提出了一种用于从3D MR图像序列恢复心脏变形的非刚性图像配准方法。这项工作的主要贡献在于，该方法在数学上可以保证产生不可压缩的变形。这是合乎需要的特性，因为已显示出心肌几乎不可压缩。该方法基于不可压缩的可变形模型，该模型可包括所有四个心腔并具有相对少量的参数。心肌需要在初始帧中进行分割，此后，该方法会自动确定整个心动周期中心肌各处的组织变形。该方法已通过左右心室的四个3D心脏MR图像序列进行了测试，并已针对手动分割进行了评估。模型与手动分割之间的体积一致性超过90％，并且模型与手动生成的心内膜和心外膜表面之间的距离平均为1.65mm。

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《International Workshop on Biomedical Image Registration(WBIR 2006); 20060709-11; Utrecht(NL)》|2006年|P.110-119|共10页
会议地点 Utrecht(NL)
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Arnaud Bistoquet; W. James Parks; Oskar Skrinjar;
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作者单位

School of Electrical and Computer Engineering, Georgia Institute of Technology, Atlanta, GA, USA;

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原文格式 PDF
正文语种 eng
中图分类生物医学工程;
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1. Myocardial deformation recovery from cine MRI using a nearly incompressible biventricular model. [J] . Bistoquet A, Oshinski J, Skrinjar O Medical image analysis . 2008,第1期

机译：使用几乎不可压缩的双心室模型从电影MRI恢复心肌变形。
2. Recovery in ERG gene expression with biventricular pacing in a rabbit model of myocardial infarction [J] . Samir Saba, Haider Mehdi, William Barrington, Research Reports in Clinical Cardiology . 2013,第1期

机译：双室起搏在兔心肌梗死模型中ERG基因表达的恢复
3. Surface Deformation Models for Nonrigid 3D Shape Recovery [J] . Salzmann Mathieu, Pilet Julien, Ilic Slobodan, IEEE Transactions on Pattern Analysis and Machine Intelligence . 2007,第8期

机译：用于非刚性3D形状恢复的表面变形模型
4. Myocardial Deformation Recovery Using a 3D Biventricular Incompressible Model [C] . Arnaud Bistoquet, W. James Parks, Oskar Skrinjar International Workshop on Biomedical Image Registration . 2006

机译：使用3D双心性不可压缩模型的心肌变形恢复
5. Multiscale Modeling and Computation of 3D Incompressible Turbulent Flows. [D] . Hu, Xin. 2012

机译：3D不可压缩湍流的多尺度建模和计算。
6. Decreased biventricular myocardial deformation in fetuses with lower urinary tract obstruction [O] . Ran Xu, Jiawei Zhou, Qichang Zhou, 2020

机译：胎儿胎儿中的胎儿心肌变形降低
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8. An Investigation of Inhomogeneous Inelastic Deformations through Plate Impact Recovery Experiments and Mathematical Modelling of Propagating Localized Deformations [R] . Clifton, R. J. 1982

机译：板冲击恢复实验中非均匀非弹性变形的研究及传播局部变形的数学模型

Myocardial Deformation Recovery Using a 3D Biventricular Incompressible Model

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