Biomechanical Registration of Prostate Images Using Statistical Shape Models. |
January |
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CT image construction of the lung in a totally deflated mode |
January |
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A constrained modulus reconstruction technique for breast cancer assessment |
January |
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Measuring the quasi-static Young’s modulus of the eardrum using an indentation technique |
January |
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Simulation of in vivo MR Elastography wave patterns of skeletal muscles using a transverse isotropic elasticity model |
January |
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A Finite Element Model Based Approach to Determine the Young's Modulus of the Intact Tympanic Membrane |
May |
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Effects of deflated lung's geometry simplifications on the biomechanical model of its tumor motion: a phantom study |
February |
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Measurement of the hyperelastic properties of 44 pathological ex vivo breast tissue samples |
January |
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3D Finite Element Model for Breast MRI Non-rigid Registration |
January |
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Prostate Ultrasound Elastography Using Finite-Element Image Registration |
January |
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CT image reconstruction of a totally deflated lung predicting its tissue local motions by the means of deformable registration |
January |
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An Inverse Problem Solution for Measuring the Elastic Modulus of Intact Breast Tissue Tumours |
January |
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Estimation of lung’s air volume and its variations throughout respiratory CT image sequences |
January |
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Breast Magnetic Resonance Elastography: A New Reconstruction Technique Using MRI Derived Constraints |
January |
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A method for myocardial contraction force reconstruction for tissue viability assessment |
January |
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Accelerated statistical shape model-based technique for tissue deformation estimation |
February |
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Biomechanical 3-D finiteelement modeling of the human breast using MRI data |
April |
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A real-time trained system for robust speaker verification using relative space of anchor models |
January |
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Constrained Non-linear Elasticity Reconstruction Technique for Breast MRI Elastography |
January |
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Statistical Finite Element Analysis |
January |
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Lung Tumor Motion Prediction During Lung Brachytherapy Using Finite Element Model |
February |
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Cardiac MR Elastography: Comparison with left ventricular pressure measurement |
January |
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A Constrained Breast Magnetic Resonance Elastography Technique: 3D phantom Study |
January |
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Measurement of the Hyperelastic Properties of Tissue Mimicking Phantoms |
January |
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A fast nonlinear elastography technique: PVA phantom study using the Veronda-Westmann model |
January |
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Elastic Moduliof Normal and Pathological Human Breast Tissues: An Inversion-technique-based Investigation of 169 Samples |
April |
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CT image construction of a totally deflated lung using deformable model extrapolation |
January |
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Breast Tissue Deformation Finite Element Modeling for MR/X-ray Mammography Data Fusion |
January |
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wisting and Bending" Model," at the Imaging Network Ontario (INO) 5th Annual Imaging Symposium |
January |
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Constrained hyperelastic parameters reconstruction of PVA phantom undergoing large deformation |
February |
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MR Validation of Soft Tissue Mimicing Phantom Deformation as Modeled by Nonlinear Finite Element Analysis |
January |
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A constrained reconstruction technique of hyperelasticity parameters for breast cancer assessment |
January |
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ANew First Year Design Course at the University of Western Ontario. |
January |
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Elastic Modulus Reconstruction Using a Novel Fast Finite Element Model |
January |
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A Novel Shape Similarity Based Elastography System for Prostate Cancer Assessment |
February |
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MR elastography of the human heart: Noninvasive assessment of myocardial elasticity changes by shear wave amplitude variations |
January |
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Magnetic Resonance Imaging Elastography Technique for Breast Tissue In-vitro Elasticity Measurement |
January |
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Detecting Mechanical Abnormalities in Prostate Tissue Using FE-Based Image Registration |
January |
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Breast linear and nonlinear real-time ultrasound elastography |
January |
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Towards a Biomechanics-Based Technique for Assessing Myocardial Contractility: An Inverse Problem Approach |
January |
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Statistical finite element method for real-time tissue deformation estimation |
January |
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Use of Constraints to Provide Plane Strain Conditions for MR Elastography |
January |
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A Biomechanics-based Method for Assessing Cardiac Tissue Viability |
April |
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A real-time method for breast cancer diagnosis using optical flow |
February |
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Measuring the Elastic Modulus of Ex-vivo Small Tissue Samples |
January |
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Novel Ultrasound Elastography Imaging System for Breast Cancer Assessment |
January |
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Non-Rigid Registration Using Free Form Deformation for Prostate Images |
January |
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An iterative hyperelastic behaviour reconstruction for Breast Cancer Assessment |
January |
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Biomechanical Properties with Magnetic Resonance Elastography |
January |
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Measuring the quasi-static Young’s modulus of the eardrum using an indentation technique |
January |
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Constrained Breast Elastography: Phantom Study and Application in In-vitro Breast Tissue Measurement |
January |
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A Non-Rigid Registration Technique for 3D Ultrasound Images using a ‘Twisting and Bending’ Model to Monitor Carotid Plaque Changes |
March |
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Modeling lung tissue local deformations in a full deflation process |
January |
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A Twisting and Bending Model-based Nonrigid Image Registration Technique for 3D Ultrasound Carotid Images |
January |
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Measurement of the hyperelastic properties of ex vivo brain tissue slices |
April |
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Automated Three-dimensional Finite Element Mesh Generation Technique for Patient Specific Breast Using MRI Data |
January |
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Towards a Biomechanics-Based Method for Assessing Myocardial Tissue Function |
August |
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Accurate optical flow field estimation using mechanical properties of soft tissues |
February |
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A Method to Measure the Hyperelastic Parameters of Ex vivo Breast Tissue Samples |
January |
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Modeling Deflated Lung’s Tumor Motion for Minimally Invasive Tumor Ablative Procedures |
January |
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Towards a Biomechanics-Based Method for Assessing the Functionality of Myocardial Tissue |
January |
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Non-Rigid Registration of Carotid Ultrasound and MR Images Using a ‘Twisting and Bending’ Model |
January |
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Two-dimensional MR Elastography: Methodology and Noise Analysis |
April |
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CT Enhanced Ultrasound Image of a Totally Deflated Lung for Image-guided Minimally Invasive Tumor Ablative Procedures |
January |
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In-vitro Breast Tissue Elastic Modulus Measurement Using Uniaxial Indentation Technique |
April |
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In Vivo Assessment of Elasticity Alterations in the Human Heart During the Cardiac Cycle: Shear Wave Amplitude Variation MR Elastography |
April |
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A totally deflated lung's CT image construction by means of extrapolated deformable registration. |
February |
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Measurement of the Hyperelastic Properties of Tissue Slices with Tumour Inclusion |
January |
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Performance Evaluation of Several HyperelasticModels in Reconstructing the Non-linear Behavior of Soft Tissues |
April |
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A Signal/Noise Analysis of Magnetic Resonance Strain Imaging |
January |
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A Non-Rigid Image Registration Technique for 3D Ultrasound Carotid Images Using a 'Twisting and Bending' Model |
August |
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Real-time ultrasound elastography technique for multifocal breast cancer assessment |
January |
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Observation of non-linear shear wave propagation using Magnetic Resonance Elastography |
January |
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Measurement of lung hyperelastic properties using inverse finite element approach |
January |
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