Computational Biomechanics for Medicine
Invited Lectures
Multiscale Modeling and Imaging of the Failing Heart: From Mouse to Human
Image-Based CFD Modeling of Cerebral Aneurysms
Submitted Manuscripts
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
The Dependence of Clinical Metrics of Cardiac Function on Lead Position in Cardiac Resynchronization Therapy: A Biophysical Modeling Study
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Neuroimage as a Biomechanical Model: Toward New Computational Biomechanics of the Brain
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Modelling Prone to Supine Breast Deformation Under Gravity Loading Using Heterogeneous Finite Element Models
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Quadratic Corotated Finite Elements for Real-Time Soft Tissue Registration
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Automatic Quantification of Congruity from Knee MRI
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Effects of Levator Ani Muscle Morphology on the Mechanics of Vaginal Childbirth
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Human Supervisory Control Framework for Interactive Medical Image Segmentation
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Performing Brain Image Warping Using the Deformation Field Predicted by a Biomechanical Model
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Computational Fluid Dynamics Framework for Large-Scale Simulation in Pediatric Cardiology
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Toward Computer Modelling of Blood Flow in an Anatomically Accurate Arterial Tree in Endovascular Interventions
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Human Body Joints Estimation for Clinical Jumping Analysis
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
Modeling Heterogeneous Tumor Growth Using Hybrid Cellular Automata
