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3-Dimensional Ultrasound Elasticity Imaging for Quantitative Cardiac Mechanical Property Assessment: A Numerical Approach

机译：用于定量心脏力学性能评估的3维超声弹性成像：一种数值方法

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Quantitative assessment of the cardiac tissue mechanical property or contractility is essential for the prognosis and treatment of various cardiac diseases such as myocardial infarction, pulmonary hypertension, and heart failure. Current evaluation methods are either invasive or limited, mainly due to complex 3-dimensional (3D) geometry and deformation of a heart. 2D imaging techniques assume erroneous planar geometry and deformations, while available 3D imaging techniques have limited functional assessment. Correlation-based 3D ultrasound (US) elasticity imaging (UEI) provides both anatomical and functional information such as mechanical property change of the cardiac walls, which is important for diagnosis and monitoring of the treatment. Using finite element (FE) techniques, one and two ellipsoid chamber cardiac mechanical models were developed, and combined with 3D US radio frequency (RF) data generation program. 3D UEI on the synthesized 3D US volume images were quantitatively analyzed and compared with 2D UEI.

机译：心脏组织机械性质或收缩性的定量评估对于各种心脏疾病（如心肌梗塞，肺动脉高压和心力衰竭）的预后和治疗至关重要。当前的评估方法是侵入性的或有限的，主要是由于复杂的3维（3D）几何形状和心脏变形。 2D成像技术假设错误的平面几何形状和变形，而可用的3D成像技术的功能评估有限。基于相关性的3D超声（US）弹性成像（UEI）提供解剖和功能信息，例如心脏壁的机械特性变化，这对于诊断和监测治疗非常重要。使用有限元（FE）技术，开发了一个和两个椭球腔心脏机械模型，并与3D US射频（RF）数据生成程序结合使用。对合成的3D US体积图像上的3D UEI进行了定量分析，并与2D UEI进行了比较。

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《ASME summer bioengineering conference;SBC2010》|2010年|p.97-98|共2页
会议地点 Naples FL(US);Naples FL(US)
作者
S. Tripathy M. A. Simon; M. S. Sacks; J. C. Brig ham; K. Kim;
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作者单位

Cardiovascular Institute, University of PittsburghrnMedical Center, School of Medicine, University ofrnPittsburgh, Pittsburgh, PA, USA;

Cardiovascular Institute, University of PittsburghrnMedical Center, School of Medicine, University ofrnPittsburgh, Pittsburgh, PA, USA;

Department of Bioengineering, University of Pittsburgh, Pittsburgh, PA, USA;

rnDepartment of Civil and EnvironmentalrnEngineering, University of Pittsburgh, Pittsburgh,rnPA, USA;

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正文语种 eng
中图分类人体工程学;
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1. Ultrasound Elasticity Imaging System with Chirp-Coded Excitation for Assessing Biomechanical Properties of Elasticity Phantom [J] . Chien-Ming Li, Guan-Chun Chun, Hsing-Jung Chiang, Materials . 2015,第12期

机译：具有线性调频激励的超声弹性成像系统，用于评估弹性体的生物力学性能
2. Ultrasound Elasticity Imaging System with Chirp-Coded Excitation for Assessing Biomechanical Properties of Elasticity Phantom [J] . Chien-Ming Li, Guan-Chun Chun, Hsing-Jung Chiang, Materials . 2015,第12期

机译：具有线性调频激励的超声弹性成像系统，用于评估弹性体的生物力学性能
3. Mechanical Model Analysis for Quantitative Evaluation of Liver Fibrosis Based on Ultrasound Tissue Elasticity Imaging [J] . Tsuyoshi Shiina, Tomonori Maki, Makoto Yamakawa, Japanese journal of applied physics . 2012,第7Issue2期

机译：基于超声组织弹性成像定量评估肝纤维化的力学模型分析
4. 3-DIMENSIONAL ULTRASOUND ELASTICITY IMAGING FOR QUANTITATIVE CARDIAC MECHANICAL PROPERTY ASSESSMENT: A NUMERICAL APPROACH [C] . S. Tripathy, M. A. Simon, M. S. Sacks, ASME Bioengineering Conference . 2010

机译：三维超声弹性成像，用于定量心脏力学性能评估：数值方法
5. Quantitative reconstruction of tissue elasticity from vibrating ultrasound image sequences. [D] . Fu, Dongshan. 2000

机译：从振动超声图像序列定量重建组织弹性。
6. Ultrasound Elasticity Imaging System with Chirp-Coded Excitation for Assessing Biomechanical Properties of Elasticity Phantom [O] . Guan-Chun Chun, Hsing-Jung Chiang, Kuan-Hung Lin, 2015

机译：具有线性调频激励的超声弹性成像系统用于评估弹性体的生物力学特性
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3-Dimensional Ultrasound Elasticity Imaging for Quantitative Cardiac Mechanical Property Assessment: A Numerical Approach

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