Abstract is: Ellen Kuhl is the Walter B. Reinhold Professor in the School of Engineering and Robert Bosch Chair of Mechanical Engineering at Stanford University. She is a Professor of Mechanical Engineering and, by courtesy, Bioengineering. Kuhl is known for her research on Living Matter Physics, the design of theoretical and computational models to simulate and predict the behavior of living systems including the human brain and the living heart.
| human | Q5 |
| P5361 | BNB person ID | KuhlEllen1971- |
| P1960 | Google Scholar author ID | jjQDKYYAAAAJ |
| P244 | Library of Congress authority ID | no2011135692 |
| P8189 | National Library of Israel J9U ID | 987007328509305171 |
| P856 | official website | https://profiles.stanford.edu/ellen-kuhl |
| P496 | ORCID iD | 0000-0002-6283-935X |
| P3829 | Publons author ID | 1757936 |
| P1053 | ResearcherID | G-4444-2011 |
| P214 | VIAF ID | 311580353 |
| P10832 | WorldCat Entities ID | E39PBJbM4cpvFRgkJygYpGTmBP |
| P1416 | affiliation | Stanford University Mechanical Engineering Department | Q45132255 |
| P69 | educated at | University of Stuttgart | Q122453 |
| University of Kaiserslautern | Q678965 | ||
| Leibniz University Hannover | Q678982 | ||
| P108 | employer | Stanford University | Q41506 |
| P101 | field of work | mechanical engineering | Q101333 |
| bioengineering | Q580689 | ||
| P735 | given name | Ellen | Q2235472 |
| Ellen | Q2235472 | ||
| P106 | occupation | mechanical engineer | Q1906857 |
| university teacher | Q1622272 | ||
| academic | Q3400985 | ||
| P5008 | on focus list of Wikimedia project | WikiProject COVID-19 | Q87748614 |
| P803 | professorship | Robert Bosch Chairmanship of the Department of Mechanical Engineering | Q89913015 |
| Walter B. Reinhold Professorship in the School of Engineering | Q89913439 | ||
| P21 | sex or gender | female | Q6581072 |
| P937 | work location | Stanford | Q173813 |
| Q36408199 | A fully implicit finite element method for bidomain models of cardiac electromechanics. |
| Q51579134 | A fully implicit finite element method for bidomain models of cardiac electrophysiology. |
| Q54186291 | A generic approach towards finite growth with examples of athlete's heart, cardiac dilation, and cardiac wall thickening |
| Q47850196 | A novel strategy to identify the critical conditions for growth-induced instabilities. |
| Q43832987 | A three-constituent damage model for arterial clamping in computer-assisted surgery |
| Q30525234 | Anterior mitral leaflet curvature during the cardiac cycle in the normal ovine heart. |
| Q43248331 | Anterior mitral leaflet curvature in the beating ovine heart: a case study using videofluoroscopic markers and subdivision surfaces. |
| Q112556003 | Bayesian Physics-Based Modeling of Tau Propagation in Alzheimer's Disease |
| Q39463452 | Characterisation of electrophysiological conduction in cardiomyocyte co-cultures using co-occurrence analysis |
| Q30477322 | Characterization of indentation response and stiffness reduction of bone using a continuum damage model. |
| Q34165842 | Characterization of mitral valve annular dynamics in the beating heart. |
| Q89548606 | Classifying Drugs by their Arrhythmogenic Risk Using Machine Learning |
| Q42009300 | Computational Optogenetics: A Novel Continuum Framework for the Photoelectrochemistry of Living Systems |
| Q51565852 | Computational modeling of bone density profiles in response to gait: a subject-specific approach. |
| Q35607391 | Computational modeling of growth: systemic and pulmonary hypertension in the heart. |
| Q34297065 | Computational modeling of healing: an application of the material force method. |
| Q92186843 | Connectomics of neurodegeneration |
| Q50526144 | Consistent formulation of the growth process at the kinematic and constitutive level for soft tissues composed of multiple constituents. |
| Q112555560 | Effects of B.1.1.7 and B.1.351 on COVID-19 Dynamics: A Campus Reopening Study |
| Q36427995 | Evidence of adaptive mitral leaflet growth |
| Q41957291 | Generating Purkinje networks in the human heart |
| Q98577454 | Global and local mobility as a barometer for COVID-19 dynamics |
| Q45767278 | Growing matter: a review of growth in living systems. |
| Q48204337 | Growth and remodeling play opposing roles during postnatal human heart valve development. |
| Q92732493 | Growth and remodelling of living tissues: perspectives, challenges and opportunities |
| Q37135237 | Growth on demand: reviewing the mechanobiology of stretched skin |
| Q113326523 | How drugs modulate the performance of the human heart |
| Q24619129 | In vivo dynamic strains of the ovine anterior mitral valve leaflet. |
| Q91677327 | Integrating machine learning and multiscale modeling-perspectives, challenges, and opportunities in the biological, biomedical, and behavioral sciences |
| Q48163184 | Interpreting Activation Mapping of Atrial Fibrillation: A Hybrid Computational/Physiological Study. |
| Q98241608 | Is it safe to lift COVID-19 travel bans? The Newfoundland story |
| Q35909910 | Isogeometric Kirchhoff-Love shell formulations for biological membranes. |
| Q45077001 | Mathematical modeling of collagen turnover in biological tissue |
| Q35395836 | Mechanical properties of gray and white matter brain tissue by indentation. |
| Q51805318 | Mechanics in biology: cells and tissues. |
| Q37154480 | Mechanics of the mitral annulus in chronic ischemic cardiomyopathy |
| Q36791407 | Mechanics of the mitral valve: a critical review, an in vivo parameter identification, and the effect of prestrain. |
| Q24629729 | Mitral valve annuloplasty: a quantitative clinical and mechanical comparison of different annuloplasty devices |
| Q113327096 | Modeling neurodegeneration in chronic traumatic encephalopathy using gradient damage models |
| Q113322743 | Multiscale Modeling Meets Machine Learning: What Can We Learn? |
| Q35224040 | Multiscale computational models for optogenetic control of cardiac function |
| Q92851752 | Nervous Tissue Stiffens Postinjury |
| Q34674993 | On high heels and short muscles: a multiscale model for sarcomere loss in the gastrocnemius muscle |
| Q48271341 | On skin microrelief and the emergence of expression micro-wrinkles |
| Q38633951 | On the Role of Mechanics in Chronic Lung Disease. |
| Q37104388 | On the effect of prestrain and residual stress in thin biological membranes |
| Q36768933 | On the mechanics of continua with boundary energies and growing surfaces. |
| Q37590963 | On the mechanics of growing thin biological membranes |
| Q93274717 | Outbreak dynamics of COVID-19 in China and the United States |
| Q95628316 | Outbreak dynamics of COVID-19 in China and the United States |
| Q95601150 | Outbreak dynamics of COVID-19 in Europe and the effect of travel restrictions |
| Q50051494 | Predicting drug-induced arrhythmias by multiscale modeling |
| Q90726431 | Prion-like spreading of Alzheimer's disease within the brain's connectome |
| Q100529654 | Protein-protein interactions in neurodegenerative diseases: A conspiracy theory |
| Q33870930 | Regional stiffening of the mitral valve anterior leaflet in the beating ovine heart |
| Q64099499 | Revisiting the wrinkling of elastic bilayers I: linear analysis |
| Q91758198 | Spatially-extended nucleation-aggregation-fragmentation models for the dynamics of prion-like neurodegenerative protein-spreading in the brain and its connectome |
| Q47347065 | Special issue on computer simulations of mechanobiology. Preface |
| Q34437572 | Stretching skeletal muscle: chronic muscle lengthening through sarcomerogenesis |
| Q36640767 | Stretching skin: The physiological limit and beyond. |
| Q36736158 | Systems-based approaches toward wound healing. |
| Q34245649 | The Living Heart Project: A robust and integrative simulator for human heart function |
| Q57813018 | The Shrinking Brain: Cerebral Atrophy Following Traumatic Brain Injury |
| Q34800848 | The phenomenon of twisted growth: humeral torsion in dominant arms of high performance tennis players |
| Q95627738 | The reproduction number of COVID-19 and its correlation with public health interventions |
| Q34141897 | The role of mechanics during brain development. |
| Q92322693 | Towards microstructure-informed material models for human brain tissue |
| Q91536730 | Understanding the mechanical link between oriented cell division and cerebellar morphogenesis |
| Q43487426 | Using 3D Printing to Create Personalized Brain Models for Neurosurgical Training and Preoperative Planning |
| Q93033017 | Using machine learning to characterize heart failure across the scales |
| Q44123925 | Visualization of particle interactions in granular media. |
| Q99637412 | Visualizing the invisible: The effect of asymptomatic transmission on the outbreak dynamics of COVID-19 |
| Q112558307 | Visualizing the invisible: The effect of asymptomatic transmission on the outbreak dynamics of COVID-19 |
| Q47902645 | Wrinkling instabilities in soft bilayered systems. |
| Ellen Kuhl | wikipedia |
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