7927030
E89JY444
1
council-of-science-editors-author-date
50
date
desc
year
511
https://febio.org/site/plugins/zotpress/
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Zitnay RSG. 2023. Strain and Extracellular Tenascin-C in the Progression of Early Lung Adenocarcinoma to Invasive Disease. The University of Utah.
Petersen CA. 2023. Analysis of Bendable Osteochondral Allograft Treatment and Investigations of Articular Cartilage Wear Mechanics. Columbia University.
Pearson NR. 2023. High Strain Rate Damage in Cerebral Arteries: A Molecular and Mechanical Analysis. The University of Utah.
Luk J. 2023. Biomechanical and Immunological Contributions to Osteochondral Allograft Transplantation Outcomes. University of Missouri - Columbia.
Hurd ER. 2023. Establishment of a Framework to Interrogate the In Vivo Hemodynamics in the Carotid Bifurcation Utilizing Four-Dimensional Flow Magnetic Resonance Imaging. The University of Utah.
Glover NO. 2023. Simulating Size Selectivity of Albumin Through the Kidney Filtration Barrier Using FEBio. State University of New York at Buffalo.
Wysocki MA. 2023. Improving Computational Analysis of Anatomical Structures for Greater Data Validity in Research and Advanced Treatments in Medicine. State University of New York at Buffalo.
McKinley JP. 2023. Impactful Design: From Microfluidic Devices for Modeling the Spine to Equipment for Pandemic Relief. University of California, Berkeley.
Kish K. 2023. A Patient-Specific Computational Framework to Optimize Retinal Stimulation. University of Michigan.
Gibbons AK. 2023. Lumbar Skin Strain Fields in the Context of Skin Adhered Wearables. Brigham Young University.
Gacek E. 2023. On-Joint Mechanics of the Lumbar Facet Capsular Ligament. University of Minnesota.
Korcari A. 2022. Deciphering the Functions of Scleraxis-Lineage Cells to Define Cellular and Molecular Programs Responsible for Tendon Homeostasis Maintenance and Regeneration after Injury. University of Rochester.
Xu Y. 2022. The Influence of Frontal and Axial Plane Deformities on Contact Mechanics During Squatting: A Finite Element Study. The University of Western Ontario (Canada).
Shahabi A. 2022. Creep Indentation Testing and Finite Element Analysis of Cartilage. UC Irvine.
Rumberger C. 2022. A Finite Element Model for Investigation of Nuclear Stresses in Arterial Endothelial Cells. Purdue University.
Nikpasand M. 2022. Subject-Specific Modeling of Human Facet Capsular Ligament. University of Minnesota.
Kim J. 2022. The Effect of Soft Tissue and Bone Morphology on the Stresses in the Foot and Ankle. Old Dominion University.
Huff WK. 2022. An Investigation into the Role of the Intervertebral Discs and Facet Angles Inside the Cervical and Lumbar Spine. The University of Utah.
Farina KA. 2022. The Effects of Increasing Step Rate on Achilles Tendon Stress during Running. University of Oregon.
Volk VL. 2022. Integrated Neuromusculoskeletal Modeling Within a Finite Element Framework to Investigate Mechanisms and Treatment of Neurodegenerative Conditions. Boise State University.
Smith KA. 2022. Evaluation of Hemodynamic Induced Alterations in Extracellular Matrix Organization in Atherogenesis. The University of Utah.
LaBelle SA. 2022. Matrix Structural Regulation of Neovessel Guidance in Angiogenesis. The University of Utah.
Shim JJ. 2021. A Multiphasic-Fluid-Structure Interaction Formulation Based on Mixture Theory and Its Finite Element Implementation in FEBio. Columbia University.
Gossiho DNO. 2021. Investigation of discrepancy in the uniaxial versus biaxial response of the abdominal aortic aneurysm tissue. The University of Iowa.
DiCerbo M. 2021. Porous Scaffold and Soft Hydrogel Composite for Biomedical Applications. Rowan University.
Mowbray S. 2021. Investigation of Organ Level Muscle Properties and Mechanics Through Modeling Fiber Architecture of Soft Tissue Muscle Groups and the Effect of Necrotic Tissue on Muscle Fiber Orientation. Widener University.
Caprara S. 2021. Towards the integration of computational methods in spinal surgical planning: A combination of deep learning, statistical, and finite element methods. ETH Zurich.
Schneider HJL. 2021. The accuracy of a FEM model in predicting phantom deformation. University of Twente.
Chen D. 2021. Regenerative Engineering of the Temporomandibular Joint in a Porcine Model. Columbia University.
Kotelsky A. 2020. Elucidating the factors that govern vulnerability of in situ articular chondrocytes to mechanical loading. University of Rochester.
Yao J. 2020. Mechanical characterisation of acetabular soft tissues: experimental and computational study. University of Leeds.
Banda OA. 2020. Reference-free traction force microscopy to investigate cell adhesion & mechanotransduction. University of Delaware.
Bennion N. 2020. Computational modelling of brain shift in stereotactic neurosurgery. Cardiff University.
Mosher CZ. 2020. Interface Scaffold Design Principles for Integrative Cartilage Regeneration. Columbia University.
Ferrer GDA. 2020. Understanding Key Biomechanical Factors that Influence Rotator Cuff Tear Propagation. University of Pittsburgh.
Mason D. 2020. Raman Spectroscopy-based Analysis of Cartilage Composition with Applications in Finite Element Modeling. Carleton University.
Vidmar C. 2020. Computational and Experimental Comparison on the Effects of Flow-Induced Compression on the Permeability of Collagen Gels. University of Minnesota.
Valdez EE. 2020. Knee Articular Cartilage Material Properties Estimation Through FEA. University of Vermont.
Azar DA. 2020. Advanced Geometric Analyses in Vascular Disease and Interventions. University of South Carolina.
Pei S. 2020. Osteocyte Mechanosensing: Interstitial Fluid Flow, Cellular Response, and Turnover of Pericellular Matrix. University of Delaware.
Nye LA. 2020. Methods for Modelling Changes in Viscoelasticity of the Urinary Bladder by Anatomical Location and Swelling. Michigan State University.
Huda FT. 2020. Influence of Perivascular Adipose Tissue on Central Arterial Mechanics and Hemodynamics: A Parametric Fluid Structure Interaction Analysis. East Carolina University.
Spracklin A. 2019. The mechanical environment of the supraspinatus during arm elevation: a three-dimensional finite element analysis. University of Minnesota.
Khan AR. 2019. A biphasic multiscale investigation of the biomechanical microenvironment of articular cartilage. Carleton University.
Liu H-C. 2019. Advanced applications of high frequency single beam Acoustic tweezers in fluid and cell mechanics. University of Southern California.
Korenczuk CE. 2019. Failure mechanics of nonlinear, heterogeneous, anisotropic cardiovascular tissues: implications for ascending thoracic aortic aneurysms. University of Minnesota.
Gilbertson M. 2019. Inverse design of soft robotic actuators using nonlinear finite element modeling. University of Minnesota.
Xi C. 2019. Computational modeling of cardiac mechanics: microstructual modeling & pulmonary arterial hypertension. Michigan State University.
Scher-Zagier JK. 2019. Force requirements and force generation during endocytosis in yeast. Washington University.
Chen S. 2019. A finite element study of human thigh area in seated posture for pressure ulcer prediction and prevention. Michigan State University.