Gilbertson M: 2019. Inverse design of soft robotic actuators using nonlinear finite element modeling. University of Minnesota.
Asmani M: 2019. Development of fibrotic micro-tissue model for predicting anti-fibrosis drug efficacy. State University of New York at Buffalo.
Naghizadeh Safa B: 2019. Analysis and modeling of inelasticity in tendon: viscoelasticity, damage, and plastic deformation. University of Delaware.
Korenczuk CE: 2019. Failure mechanics of nonlinear, heterogeneous, anisotropic cardiovascular tissues: implications for ascending thoracic aortic aneurysms. University of Minnesota.
Chen S: 2019. A finite element study of human thigh area in seated posture for pressure ulcer prediction and prevention. Michigan State University.
Scher-Zagier JK: 2019. Force requirements and force generation during endocytosis in yeast. Washington University.
Xi C: 2019. Computational modeling of cardiac mechanics: microstructual modeling & pulmonary arterial hypertension. Michigan State University.
Liu H-C: 2019. Advanced applications of high frequency single beam Acoustic tweezers in fluid and cell mechanics. University of Southern California.
Khan AR: 2019. A biphasic multiscale investigation of the biomechanical microenvironment of articular cartilage. Carleton University.
Spracklin A: 2019. The mechanical environment of the supraspinatus during arm elevation: a three-dimensional finite element analysis. University of Minnesota.


Hou C: 2018. Implementation and Validation of Finite Element Framework for Passive and Active Membrane Transport in Deformable Multiphasic Models of Biological Tissues and Cells. Columbia University.


Schoch N: 2017. Towards Cognition-Guided Patient-Specific Numerical Simulation for Cardiac Surgery Assistance. PhD, Mathematics and Computer Science: Ruprecht-Karls University.
Renani MS: 2017. Elbow joint contact mechanics: Multibody and finite element methods. MS, University of Missouri - Kansas City.
Bouilliart M: 2017. Ontogeny and feeding performance of the enigmatic Anguilla eel leptocephalus larva : a morphological and biomechanical study. PhD, Ghent University.
Wang Y: 2017. Computational Ultrasound Elastography: A Feasibility Study. PhD, Michigan Technological University.
Elmasry S: 2017. Developing Computational Models for the Biomechanical Assessment. PhD, University of Miami.
Zagorski WP: 2017. Experimental and Numerical Studies on Venous Ulcers. PhD, Michigan State University.
Lenz AL: 2017. A Synergistic Approach to Transtibial Socket Interface Mechanics: Experiments and Modeling. PhD, Michigan State University.
Kim J: 2017. The Effect of Bone and Ligament Morphology of Ankle Joint Loading in the Neutral Position. MS, Old Dominion University.
Zhang J: 2017. Real-time simulation of soft tissue deformation for surgical simulation. PhD, RMIT University.
Bronik K: 2017. Implementation and Validation of a Cohesive Fracture Model through Contact Mechanics with Application to Cutting and Needle Insertion into Human Skin. PhD, Cardiff University.
Burnett JK: 2017. Bone strain change as a result of a long distance run modeled on a finite element tibia. MS.Iowa State University.
Alayyash KAA: 2017. The nonlinear elasticity of cellular bodies under large deformations. PhD, Cardiff University.
Scully J: 2017. Three-Dimensional Finite Element Analysis of Mandibular Overdentures Supported by Mini-Implants. MS, University of Missouri - Kansas City.
Schneider MT-Y: 2017. Modelling the Form and Function of the Trapeziometacarpal Joint. University of Auckland.


Luo Z, VeltKamp RC: 2016. Interactive Character Deformation Using Simplified Elastic Models. PhD, Universiteit Utrecht.
Gjelsvik CO: 2016. Modeling and simulation of the human body. MS, Norwegian University of Science and Technology.
Joda D: 2016. Finite Element Modeling of Active and Passive Behavior of the Human Tibialis Anterior: A Preliminary Approach. MS, Michigan Tech U.
Mukherjee S: 2016. Electro-Optic Response of Homeotropic, Hole Patterned, Nematic Liquid Crystal Cells Under AC and DC Voltage. PhD, Kent State U.
Chen X: 2016. Determine the mechanical properties of articular cartilage using indentation testing. MS, University of Delaware.
Berger L: 2016. A Low Order Finite Element Method for Poroelasticity with Applications to Lung Modelling. PhD, University of Oxford.
Arbabi V: 2016. Multi-physics computational models of articular cartilage for estimation of its mechanical and physical properties. PhD, Delft University of Technology.
Sibole S: 2016. pyCellAnalyst: Extensive Software for Three-dimensional Analysis of Deforming Cells. MS, University of Calgary.
Kola SKR: 2016. Strain response in osteocyte lacuna due to mechanical loading-a parametric finite element study using FEBio. MS, University of Missouri-Kansas City.
Sakamoto Y: 2016. One Cell as a Mixture: Simulation of the Mechanical Responses of Valve Interstitial Cells. PhD, University of Texas at Austin.


Hortin M: 2015. Ligament model fidelity in finite element analysis of the human lumbar spine. MS, Brigham Young University.
Oungoulian SR: 2015. Friction and wear measurments of bovine articular cartilage against non-native materials. PhD, Columbia University.
Wilson SP: 2015. A methodology for physically based contact and meniscus properties in rigid-body computational knee modeling. MS, University of Texas, El Paso.
Motallebzadeh H, Funnell WRJ: 2015. Finite-element models related to wideband tympanometry in newborns. PhD, McGill University.
Fenoglietto FLL, Barocas V: 2015. Optimization of specimen geometries for mechanical tests: Setting the standard for tissue preparation. MS, University of Minnesota.
Penrose F, Jeffery N: 2015. Bite Mechanics in Wild Canids. PhD, Liverpool.
Vickerton P, Jeffery N: 2015. Morphological, histological and biomechanical adaptation of the rat musculoskeletal system to electrical muscle stimulation. PhD, Liverpool.
Edgar LT, Weiss JA: 2015. The dynamic biomechanical regulation of morphogenesis. PhD, University of Utah.


Guilié J: 2014. Comportement à la rupture et caractérisation mécanique des caoutchoucs cristallisants sous contrainte. PhD : Paris Institute of Technology.
Ángel MÁL: 2014. A new approach for the in-vivo characterization of the biomechanical behavior of the breast and the cornea. PhD, Departamento de Sistemas Informáticos y Computación: Universitat Politècnica de València. [PDF].
Wyatt HL: 2014. Electrosurgical vessel sealing. PhD, Mechanical Engineering: Cardiff University. [PDF].
Farrar GE: 2014. Modeling and Measurement of Pressure Overload-Induced Changes in Left Ventricular Structural and Function. PhD, Mechanical Engineering: University of Washington. [PDF].


Castro A: 2013. Development of a biomimetic finite element model of the intervertebral disc diseases and regeneration. PhD, Biomedical Engineering: University of Minho. [PDF].
Verhoeven RS, Oomens CWJ: 2013. Investigating mechanical feedback between cells on extra cellular matrix : a software interface between CompuCell3D and FEBio. MS, Eindhoven Univerity of Technology.


Tomic A: 2012. Nonlinear elasticity, fluid flow and remodelling in biological tissues. MS, Mechanical and Manufacturing Engineering: University of Calgary. [PDF].
Miller R: 2012. A Computational Study of Post-Infarct Mechanical Effects of Injected Biomaterial into Ischaemic Myocardium. MS, Biomedical Engineering: University of Cape Town. [PDF].
Deram A: 2012. Environnement générique pour la validation de simulations médicales. PhD: Université de Grenoble. [PDF].


Ellis BJ: 2011. Finite element modeling of knee and shoulder ligaments. PhD Dissertation, Bioengineering: University of Utah. [PDF].
Goreham-Voss CM: 2011. Computational analysis applied to the study of post-traumatic osteoarthritis. PhD, Biomedical Engineering: University of Iowa.
Tichon DJ: 2011. Finite element analysis of the effect of low-speed rear end collisions on the medial meniscus. MS: University of Connecticut. [PDF].
Jansen van Rensburg GJ: 2011. Selective feature preserved elastic surface registration in complex geometric morphology. MS, Mechanical and Aeronautical Engineering: University of Pretoria. [PDF].
Bradshaw RJ: 2011. Mechanical characterization of the interspinous ligament using anisotropic small punch testing. MS, Mechanical Engineering: Brigham Young University. [PDF].
Alrashdan KR: 2011. A virtual environment for the modelling, simulation and manufacturing of orthopaedic devices. PhD, Mechanical, Aerospace and Civil Engineering: Brunel University. [PDF].
Webb JD: 2011. Contributions of the Deltoid and Rotator Cuff to Shoulder Mobility and Stability: A 3D Finite Element Analysis. PhD, Mechanical Engineering: Stanford University. [PDF].


Piccinelli S: 2010. Modelling of articular cartilage behavior in unconfined compression: Comparison with experimental texts. MS, Biomedical Engineering: Politecnico di Milano. [PDF].


Edwards WB: 2009. Internal structural loading of the lower extremity during running: Implications for skeletal injury. PhD, Kinesiology: Iowa State University. [PDF].


Drury NJ: 2008. Evaluating the anterior stability provided by the glenohumeral capsule: a finite element approach. MS, Bioengineering: University of Pittsburgh. [PDF].
Baker A, Hammond M: 2008. A biomechanical model of the human tongue for understanding speech production and other lingual behaviors. PhD, University of Arizona.