Mechanics and Computation / Ellen Kuhl

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{| class="person"

! Title:

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| ~~Assistant~~ Professor

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| Associate Professor

|-

! Lab:

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===[http://biomechanics.stanford.edu/Research Research]===

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~~Kuhl~~'s ~~research interests are in~~ the ~~area~~ of ~~biomechanics with a special focus on growth~~ and ~~remodeling~~. ~~She~~ is ~~particularly concerned with~~ the ~~development of appropriate enhanced continuum models based on~~ multiscale ~~considerations carrying information from~~ the ~~cell~~ to the tissue ~~level~~. ~~Her research is driven by~~ the ~~vision to provide efficient problem specific robust computational algorithms based on these models that will help to provide further understanding~~ and ~~ultimately improve~~ patient specific ~~medical treatment~~.

+

Ellen's professional expertise is living matter physics, the creation of theoretical and computational models to predict the acute and chronic response of living structures to environmental changes during development and disease. Her specific interest is the multiscale modeling of growth and remodeling, the study of how living matter adapts its form and function to changes in mechanical loading, and how this adaptation can be traced back to structural alterations on the cellular or molecular levels. Growth and remodeling can be induced naturally, e.g., through elevated pressure, stress, or strain, or interventionally, e.g., through prostheses, stents, tissue grafts, or stem cell injection. Combining theories of electrophysiology, photoelectrochemistry, biophysics, and continuum mechanics, Ellen's lab has specialized in predicting the chronic loss of form and function in growing and remodeling cardiac tissue using patient-specific custom-designed finite element models.

===[http://biomechanics.stanford.edu/Publications Publications]===

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~~Goktepe~~ S, Wong J, Kuhl E.

+

Papastavrou A, Steinmann P, Kuhl E.

+

On the mechanics of continua with boundary energies and growing surfaces.

+

J Mech Phys Solids. doi:10.1016/j.jmps.2013.01.007.

+

[http://biomechanics.stanford.edu/paper/JMPS13.pdf (download)]

+

Buganza Tepole A, Kuhl E.

+

Review: Systems-based approaches towards wound healing.

+

Pediatric Res. doi:10.1038/pr.2013.3.

+

[http://biomechanics.stanford.edu/paper/PEDRES13.pdf (download)]

+

Rausch MK, Famaey N, O'Brien Shultz T, Bothe W, Miller DC, Kuhl E.

+

Mechanics of the mitral valve: A critical review, an in vivo parameter identification, and the effect of prestrain. Biomech Mod Mechanobio. doi:10.1007/s10237-012-0462-z.

+

[http://biomechanics.stanford.edu/paper/BMMB13a.pdf (download)]

+

Wong J, Kuhl E.

+

Generating fiber orientation maps in human heart models using Poisson interpolation.

+

Comp Meth Biomech Biomed Eng. doi:10.1080/10255842.2012.739167.

+

[http://biomechanics.stanford.edu/paper/CMBBE13b.pdf (download)]

+

Saez P, Pena E, Martinez MA, Kuhl E.

+

Mathematical modeling of collagen turnover in biological tissue.

+

J Math Bio. doi:10.1007/s00285-012-0613-y.

+

[http://biomechanics.stanford.edu/paper/JMBIO13.pdf (download)]

+

Hurtado D, Kuhl E.

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Computational modeling of electrocardiograms: Repolarization and T-wave polarity in the human heart.

+

Comp Meth Biomech Biomed Eng, doi:10.1080/10255842.2012.729582.

+

[http://biomechanics.stanford.edu/paper/CMBBE13a.pdf (download)]

+

Chen MQ, Wong J, Kuhl E, Giovangrandi L, Kovacs GTA.

+

Characterization of electrophysiological conduction in cardiomyocyte co-cultures

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using co-occurrence analysis.

+

Comp Meth Biomech Biomed Eng,

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doi:10.1080/10255842.2011.615310.

+

[http://biomechanics.stanford.edu/paper/CMBBE13.pdf (download)]

+

Famaey N, Vander Sloten J, Kuhl E.

+

A three-constituent damage model for arterial clamping in computer-assisted surgery.

+

Biomech Mod Mechanobio, 2013;12:123-136.

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[http://biomechanics.stanford.edu/paper/BMMB13.pdf (download)]

+

Dal H, Göktepe S, Kaliske M, Kuhl E.

+

A fully implicit finite element method for bidomain models of cardiac electromechanics.

+

Comp Meth Appl Mech Eng, 2013;253:323-336.

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[http://biomechanics.stanford.edu/paper/CMAME13.pdf (download)]

+

Rausch MK, Tibayan FA, Miller DC, Kuhl E.

+

Evidence of adaptive mitral leaflet growth.

+

J Mech Behavior Biomed Mat, 2012;15:208-217.

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[http://biomechanics.stanford.edu/paper/JMBBM12a.pdf (download)]

+

Zöllner AM, Abilez OJ, Böl M, Kuhl E.

+

Stretching skeletal muscle - Chronic muscle lengthening through sarcomerogenesis.

+

PLoS ONE, 2012;7(10):e45661.

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[http://biomechanics.stanford.edu/paper/PLOS12.pdf (download)]

+

[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0045661 (online)]

+

Bothe W, Rausch MK, Kvitting JP, Echtner DK, Walther M, Ingels NB, Kuhl E, Miller DC.

+

How do annuloplasty rings affect mitral annular strains in the normal beating ovine heart?

+

Circulation, 2012;126:S231-S238.

+

[http://biomechanics.stanford.edu/paper/CIRC12.pdf (download)]

+

Buganza Tepole A, Gosain AK, Kuhl E.

+

Stretching skin - The physiological limit and beyond.

+

Int J Nonlin Mech, 2012;47:938-949.

+

[http://biomechanics.stanford.edu/paper/IJNLM12.pdf (download)]

+

Zöllner AM, Buganza Tepole A, Gosain AK, Kuhl E.

+

Growing skin - Tissue expansion in pediatric forehead reconstruction.

+

Biomech Mod Mechanobio, 2012;11:855-867.

+

[http://biomechanics.stanford.edu/paper/BMMB12a.pdf (download)]

+

Waffenschmidt T, Menzel A, Kuhl E.

+

Anisotropic density growth of bone. A computational micro-sphere approach.

+

Int J Solids Structures, 2012;49:1928-1946.

+

[http://biomechanics.stanford.edu/paper/IJSS12.pdf (download)]

+

Menzel A, Kuhl E.

+

Frontiers in growth and remodeling.

+

Mech Res Comm, 2012;42,1-14.

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[http://biomechanics.stanford.edu/paper/MRCOM12.pdf (download)]

+

Klepach D, Lee LC, Wenk JF, Ratcliffe MB, Zohdi TI, Navia JA, Kassab GS, Kuhl E, Guccione JM.

+

Growth and remodeling of the left ventricle:

+

A case study of myocardial infarction and surgical ventricular restoration.

+

Mech Res Comm, 2012;42,134-141.

+

[http://biomechanics.stanford.edu/paper/MRCOM12a.pdf (download)]

+

Dal H, Göktepe S, Kaliske M, Kuhl E.

+

A fully implicit finite element method for bidomain models of cardiac electrophysiology.

+

Comp Meth Biomech Biomed Eng, 2012;15,645-656.

+

[http://biomechanics.stanford.edu/paper/CMBBE12a.pdf (download)]

+

Wong J, Abilez OJ, Kuhl E.

+

Computational optogenetics - A novel continuum framework for the photoelectrochemistry of living systems. J Mech Phys Solids, 2012;60:1158-1178.

+

[http://biomechanics.stanford.edu/paper/JMPS12.pdf (download)]

+

Schmid H, Pauli L, Paulus A, Kuhl E, Itskov M.

+

Consistent formulation of the growth process at the kinematic and constitutive level for soft tissues composed of multiple constituents.

+

Comp Meth Biomech Biomed Eng, 2012;15:547-561.

+

[http://biomechanics.stanford.edu/paper/CMBBE12.pdf (download)]

+

Tsamis A, Cheng A, Nguyen TC, Langer F, Miller DC, Kuhl E.

+

Kinematics of cardiac growth - In vivo characterization of growth tensors and strains.

+

J Mech Behavior Biomed Mat, 2012;8:165-177.

+

[http://biomechanics.stanford.edu/paper/JMBBM12.pdf (download)]

+

Zöllner AM, Buganza Tepole A, Kuhl E.

+

On the biomechanics and mechanobiology of growing skin.

+

J Theor Bio, 2012;297:166-175.

+

[http://biomechanics.stanford.edu/paper/JTBIO12.pdf (download)]

+

Rausch MK, Bothe W, Kvitting JP, Swanson JC, Miller DC, Kuhl E.

+

Mitral valve annuloplasty - A quantitative clinical and mechanical comparison of different annuloplasty devices.

+

Ann Biomed Eng, 2012;40:750-761.

+

[http://biomechanics.stanford.edu/paper/ABME12.pdf (download)]

+

Pang H, Shiwalkar AP, Madormo CM, Taylor RE, Andriacchi TP, Kuhl E.

+

Computational modeling of bone density profiles in response to gait: A subject-specific approach.

+

Biomech Mod Mechanobio, 2012;11:379-390.

+

[http://biomechanics.stanford.edu/paper/BMMB12.pdf (download)]

+

Böl M, Abilez OJ, Assar AN, Zarins CK, Kuhl E.

+

In vitro / in silico characterization of active and passive stresses in cardiac muscle.

+

Int J Multiscale Comp Eng, 2012;10:171-188.

+

[http://biomechanics.stanford.edu/paper/IJMCE12.pdf (download)]

+

Rausch MK, Dam A, Göktepe S, Abilez OJ, Kuhl E.

+

Computational modeling of growth: Systemic and pulmonary hypertension in the heart.

+

Biomech Mod Mechanobio, 2011;10:799-811.

+

[http://biomechanics.stanford.edu/paper/BMMB11.pdf (download)]

+

Buganza Tepole A, Ploch CJ, Wong J, Gosain AK, Kuhl E.

+

Growing skin - A computational model for skin expansion in reconstructive surgery.

+

J Mech Phys Solids, 2011;59:2177-2190.

+

[http://biomechanics.stanford.edu/paper/JMPS11a.pdf (download)] [http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3212404/ (online)]

+

Wong J, Göktepe S, Kuhl E.

+

Computational modeling of electrochemical coupling: A novel finite element approach towards ionic models for cardiac electrophysiology.

+

Comp Meth Appl Mech Eng, 2011;200:3139-3158.

+

[http://biomechanics.stanford.edu/paper/CMAME11.pdf (download)]

+

Abilez OJ, Wong J, Prakash R, Deisseroth K, Zarins CK, Kuhl E.

+

Multiscale computational models for optogenetic control of cardiac function.

+

Biophys J, 2011;101:1326-1334.

+

[http://biomechanics.stanford.edu/paper/BIOPJ11.pdf (download)]

+

[http://med.stanford.edu/ism/2011/september/cardiomyocyte.html (report)]

+

Bothe W, Kuhl E, Kvitting JP, Rausch MK, Göktepe S, Swanson JC, Farahmandnia S, Ingels NB, Miller DC.

+

Rigid, complete annuloplasty rings increase anterior mitral leaflet strains in the normal beating ovine heart.

+

Circulation, 2011;124:S81-S96.

+

[http://biomechanics.stanford.edu/paper/CIRC11.pdf (download)]

+

Wenk JF, Eslami P, Zhang Z, Xu C, Kuhl E, Gorman JH, Robb JD, Ratcliffe MB, Gorman RC, Guccione JM.

+

A novel method for quantifying the in-vivo mechanical effect of material injected into a myocardial infarction.

+

Ann Thorac Surg, 2011;92:935-941.

+

[http://biomechanics.stanford.edu/paper/ATS11.pdf (download)]

+

Tsamis A, Bothe W, Kvitting JP, Swanson JC, Miller DC, Kuhl E.

+

Active contraction of cardiac muscle:

+

In vivo characterization of mechanical activation sequences in the beating heart.

+

J Mech Behavior Biomed Mat, 2011;4:1167-1176.

+

[http://biomechanics.stanford.edu/paper/JMBBM11.pdf (download)]

+

Rausch MK, Bothe W, Kvitting JP, Swanson JC, Ingels NB, Miller DC, Kuhl E.

+

Characterization of mitral valve annular dynamics in the beating heart.

+

Ann Biomed Eng, 2011;39:1690-1702.

+

[http://biomechanics.stanford.edu/paper/ABME11.pdf (download)]

+

Rausch MK, Bothe W, Kvitting JP, Göktepe S, Miller DC, Kuhl E.

+

In vivo dynamic strains of the ovine anterior mitral valve leaflet.

+

J Biomechanics, 2011;44:1149-1157.

+

[http://biomechanics.stanford.edu/paper/JBIOM11.pdf (download)]

+

Ambrosi D, Ateshian GA, Arruda EM, Cowin SC, Dumais J, Goriely A, Holzapfel GA, Humphrey JD, Kemkemer R, Kuhl E, Olberding JE, Taber LA, Garikipati K.

+

Perspectives on biological growth and remodeling.

+

J Mech Phys Solids, 2011;59:863-883.

+

[http://biomechanics.stanford.edu/paper/JMPS11.pdf (download)]

+

Göktepe S, Acharya SNS, Wong J, Kuhl E.

+

Computational modeling of passive myocardium.

+

Int J Num Meth Biomed Eng, 2011;27:1-12.

+

[http://biomechanics.stanford.edu/paper/IJNMB11.pdf (download)]

+

Kvitting JP, Bothe W, Göktepe S, Rausch MK, Swanson JC, Kuhl E, Ingels NB, Miller DC.

+

Anterior mitral leaflet curvature during the cardiac cycle in the normal ovine heart.

+

Circulation, 2010;122:1683-1689.

+

[http://biomechanics.stanford.edu/paper/CIRC10.pdf (download)]

+

Göktepe S, Abilez OJ, Kuhl E.

+

A generic approach towards finite growth with examples of athlete's heart, cardiac dilation, and cardiac wall thickening.

+

J Mech Phys Solids, 2010;58:1661-1680.

+

[http://biomechanics.stanford.edu/paper/JMPS10.pdf (download)]

+

Göktepe S, Abilez OJ, Parker KK, Kuhl E.

+

A multiscale model for eccentric and concentric cardiac growth

+

through sarcomerogenesis.

+

J Theor Bio, 2010;265:433-442.

+

[http://biomechanics.stanford.edu/paper/JTBIO10.pdf (download)]

+

Rajagopal A, Fischer P, Kuhl E, Steinmann P.

+

Natural element analysis of the Cahn-Hilliard phase-field model.

+

Comp Mech, 2010;46:471-493.

+

[http://biomechanics.stanford.edu/paper/CMECH10a.pdf (download)]

+

Göktepe S, Bothe W, Kvitting JP, Swanson J, Ingels NB, Miller DC, Kuhl E.

+

Anterior mitral leaflet curvature in the beating ovine heart.

+

A case study using videofluoroscopic markers and subdivision surfaces.

+

Biomech Mod Mechanobio, 2010;9:281-293.

+

[http://biomechanics.stanford.edu/paper/BMMB10.pdf (download)]

+

Kotikanyadanam M, Göktepe S, Kuhl E.

+

Computational modeling of electrocardiograms - A finite element approach towards cardiac excitation.

+

Int J Num Meth Biomed Eng, 2010;26:524-533.

+

[http://biomechanics.stanford.edu/paper/IJNMB10.pdf (download)]

+

Gitman I, Askes H, Kuhl E, Aifantis EC.

+

Stress concentrations in fractured compact bone simulated with a special class of anisotropic gradient elasticity.

+

Int J Solids Structures, 2010;47:1099-1107.

+

[http://biomechanics.stanford.edu/paper/IJSS10.pdf (download)]

+

Göktepe S, Wong J, Kuhl E.

Atrial and ventricular fibrillation -

Computational simulation of spiral waves in cardiac tissue.

−

~~submitted for publication~~.

+

Arch Appl Mech, 2010;80:569-580.

−

[http://biomechanics.stanford.edu/paper/~~ARCHV08~~.pdf (download)]

+

[http://biomechanics.stanford.edu/paper/AMECH10.pdf (download)]

−

~~Goktepe S~~, Kuhl E.

+

Zhang J, Michalenko MM, Kuhl E, Ovaert TC.

−

~~Computational modeling~~ of ~~electrophysiology: A novel finite element approach~~.

+

Characterization of indentation response and stiffness reduction of bone using a continuum damage model.

−

~~submitted for publication~~.

+

J Mech Behavior Biomed Mat, 2010;3:189-202.

−

[http://biomechanics.stanford.edu/paper/~~IJNME08a~~.pdf (download)]

+

[http://biomechanics.stanford.edu/paper/JMBBM09.pdf (download)]

−

~~Zhang J~~, Kuhl E~~, Ovaert T~~.

+

Göktepe S, Kuhl E.

−

~~Simulation~~ of ~~micro~~-~~indentation behavior of bone via a plastic~~-~~damage model~~.

+

Electromechanics of the heart -

−

~~submitted for publication~~.

+

A unified approach to the strongly coupled excitation-contraction problem.

−

[http://biomechanics.stanford.edu/paper/~~JBIOM08~~.pdf (download)]

+

Comp Mech, 2010;45:227-243.

+

[http://biomechanics.stanford.edu/paper/CMECH10.pdf (download)]

−

~~Boel~~ M, Reese S, Parker KK, Kuhl E.

+

Krishnamurthy G, Itoh A, Swanson J, Bothe W, Karlsson M, Kuhl E, Miller DC, Ingels NB.

+

Regional stiffening of the mitral valve anterior leaflet in the beating heart.

+

J Biomechanics, 2009;42:2697-2701.

+

[http://biomechanics.stanford.edu/paper/JBIOM09a.pdf (download)]

+

Jager P, Steinmann S, Kuhl E.

+

Towards the treatment of boundary conditions for global crack path tracking in three-dimensional brittle fracture.

+

Comp Mech. 2009;45:91-107.

+

[http://biomechanics.stanford.edu/paper/CMECH09a.pdf (download)]

+

Krishnamurthy G, Itoh A, Bothe W, Swanson J, Kuhl E, Karlsson M, Miller DC, Ingels NB.

+

Stress-strain behavior of mitral valve leaflets in the beating ovine heart.

+

J Biomechanics. 2009;42:1909-1916.

+

[http://biomechanics.stanford.edu/paper/JBIOM09.pdf (download)]

+

Itoh A, Krishnamurthy G, Swanson J, Ennis D, Bothe W, Kuhl E, Karlsson M, Davis L, Miller DC, Ingels NB.

+

Active stiffening of mitral valve leaflets in the beating heart.

+

Am J Physiol Heart Circ Physiol. 2009;296:H1766-H1773.

+

[http://biomechanics.stanford.edu/paper/AJPHC09.pdf (download)]

+

Göktepe S, Kuhl E.

+

Computational modeling of electrophysiology: A novel finite element approach.

+

Int J Num Meth Eng. 2009; 79:156-178.

+

[http://biomechanics.stanford.edu/paper/IJNME09.pdf (download)]

+

Böl M, Reese S, Parker KK, Kuhl E.

Computational modeling of muscular thin films for cardiac repair.

−

Comp Mech. ~~DOI~~: 10.~~1007~~/~~s00466-008-0328~~-5.

+

Comp Mech. 2009;43:535-544.

−

[http://biomechanics.stanford.edu/paper/~~CMECH08a~~.pdf (download)]

+

[http://biomechanics.stanford.edu/paper/CMECH09.pdf (download)]

+

Taylor RE, Zheng C, Jackson PR, Doll JC, Chen JC, Holzbaur KRS, Besier T, Kuhl E.

+

The phenomenon of twisted growth:

+

Humeral torsion in dominant arms of high performance tennis players.

+

Comp Meth Biomech Biomed Eng. 2009;12:83-93.

+

[http://biomechanics.stanford.edu/paper/CMBBE08.pdf (download)]

Krishnamurthy G, Ennis DB, Itoh A, Bothe W, Swanson-Birchill JC,

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[http://biomechanics.stanford.edu/paper/AJPHC08.pdf (download)]

−

~~Taylor RE~~, ~~Zheng C~~, ~~Jackson PR~~, ~~Doll JC, Chen JC, Holzbaur KRS, Besier T~~, Kuhl E.

+

Jha CM, Salvia J, Chandorkar SA, Melamud R, Kuhl E, Kenny TW.

−

~~The phenomenon of twisted growth:~~

+

Acceleration insensitive encapsulated silicon microresonator.

−

~~Humeral torsion in dominant arms of high performance tennis players~~.

+

Appl Phys Let. 2008;93:234103.1-234103.3.

−

~~Comp Meth Biomech Biomed Eng~~. ~~DOI~~: 10.~~1080/10255840802178046~~.

+

[http://biomechanics.stanford.edu/paper/APL08.pdf (download)]

−

~~[http://biomechanics.stanford.edu/paper/CMBBE08.pdf (download)]~~

+

−

+

−

~~Jager P, Steinmann P, Kuhl E.~~

+

−

~~A novel numerical framework for the threedimensional~~

+

−

~~modeling of brittle fracture.~~

+

−

~~submitted for publication~~.

+

−

[http://biomechanics.stanford.edu/paper/~~JAMEC08~~.pdf (download)]

+

Jager P, Schmalholz SM, Schmid DW, Kuhl E.

Brittle fracture during folding rocks - A finite element study.

−

Phil Mag. ~~DOI~~: ~~10.1080/14786430802320101~~.

+

Phil Mag. 2008;88:3245-3263.

[http://biomechanics.stanford.edu/paper/PHILM08.pdf (download)]

−

~~Jager P, Steinmann P, Kuhl E.~~

−

~~Modeling three-dimensional crack propagation - A comparison of crack path tracking strategies.~~

−

~~Int J Num Meth Eng, DOI: 10.1002/nme.2353.~~

−

~~[http://biomechanics.stanford.edu/paper/IJNME08.pdf (download)]~~

Meier HA, Schlemmer M, Wagner C, Kerren A, Hagen H, Kuhl E, Steinmann P.

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Line 320:

IEEE Trans Vis Comp Graphics. 2008;14:1-16.

[http://biomechanics.stanford.edu/paper/TVCG08.pdf (download)]

+

Jager P, Steinmann P, Kuhl E.

+

Modeling three-dimensional crack propagation - A comparison of crack path tracking strategies.

+

Int J Num Meth Eng, 2008;76:1328-1352.

+

[http://biomechanics.stanford.edu/paper/IJNME08.pdf (download)]

Himpel G, Menzel A, Kuhl E, Steinmann P.

Time-dependent fiber reorientation of transversely isotropic continua - Finite element formulation and consistent linearization.

Int J Num Meth Eng. 2008;73:1413-1433.

−

[http://biomechanics.stanford.edu/paper/~~IJNME07a~~.pdf (download)]

+

[http://biomechanics.stanford.edu/paper/IJNME08a.pdf (download)]

Jager P, Steinmann P, Kuhl E.

On local tracking algorithms for the simulation of three-dimensional discontinuities.

Comp Mech, 2008;42:395-406.

−

[http://biomechanics.stanford.edu/paper/~~CMECH07a~~.pdf (download)]

+

[http://biomechanics.stanford.edu/paper/CMECH08.pdf (download)]

Meier HA, Steinmann P, Kuhl E.

Line 102:

Line 348:

A note on the generation of periodic granular microstructures based on grain size distributions.

Int J Num Anal Meth Geomech. 2008;32:509-522.

−

[http://biomechanics.stanford.edu/paper/~~IJNAMG07~~.pdf (download)]

+

[http://biomechanics.stanford.edu/paper/IJNAMG08.pdf (download)]

Kuhl E, Holzapfel GA.

@@ Line 5: / Line 5: @@
 {| class="person"
 ! Title:
-| Assistant Professor
+| Associate Professor
 |-
 ! Lab:
@@ Line 22: / Line 22: @@
 ===[http://biomechanics.stanford.edu/Research Research]===
-Kuhl's research interests are in the area of biomechanics with a special focus on growth and remodeling. She is particularly concerned with the development of appropriate enhanced continuum models based on multiscale considerations carrying information from the cell to the tissue level. Her research is driven by the vision to provide efficient problem specific robust computational algorithms based on these models that will help to provide further understanding and ultimately improve patient specific medical treatment.
+Ellen's professional expertise is living matter physics, the creation of theoretical and computational models to predict the acute and chronic response of living structures to environmental changes during development and disease. Her specific interest is the multiscale modeling of growth and remodeling, the study of how living matter adapts its form and function to changes in mechanical loading, and how this adaptation can be traced back to structural alterations on the cellular or molecular levels. Growth and remodeling can be induced naturally, e.g., through elevated pressure, stress, or strain, or interventionally, e.g., through prostheses, stents, tissue grafts, or stem cell injection. Combining theories of electrophysiology, photoelectrochemistry, biophysics, and continuum mechanics, Ellen's lab has specialized in predicting the chronic loss of form and function in growing and remodeling cardiac tissue using patient-specific custom-designed finite element models.
 ===[http://biomechanics.stanford.edu/Publications Publications]===
-Goktepe S, Wong J, Kuhl E.
+Papastavrou A, Steinmann P, Kuhl E.
+On the mechanics of continua with boundary energies and growing surfaces.
+J Mech Phys Solids. doi:10.1016/j.jmps.2013.01.007.
+[http://biomechanics.stanford.edu/paper/JMPS13.pdf (download)]
+Buganza Tepole A, Kuhl E.
+Review: Systems-based approaches towards wound healing.
+Pediatric Res. doi:10.1038/pr.2013.3.
+[http://biomechanics.stanford.edu/paper/PEDRES13.pdf (download)]
+Rausch MK, Famaey N, O'Brien Shultz T, Bothe W, Miller DC, Kuhl E.
+Mechanics of the mitral valve: A critical review, an in vivo parameter identification, and the effect of prestrain. Biomech Mod Mechanobio. doi:10.1007/s10237-012-0462-z.
+[http://biomechanics.stanford.edu/paper/BMMB13a.pdf (download)]
+Wong J, Kuhl E.
+Generating fiber orientation maps in human heart models using Poisson interpolation.
+Comp Meth Biomech Biomed Eng. doi:10.1080/10255842.2012.739167.
+[http://biomechanics.stanford.edu/paper/CMBBE13b.pdf (download)]
+Saez P, Pena E, Martinez MA, Kuhl E.
+Mathematical modeling of collagen turnover in biological tissue.
+J Math Bio. doi:10.1007/s00285-012-0613-y.
+[http://biomechanics.stanford.edu/paper/JMBIO13.pdf (download)]
+Hurtado D, Kuhl E.
+Computational modeling of electrocardiograms: Repolarization and T-wave polarity in the human heart.
+Comp Meth Biomech Biomed Eng, doi:10.1080/10255842.2012.729582.
+[http://biomechanics.stanford.edu/paper/CMBBE13a.pdf (download)]
+Chen MQ, Wong J, Kuhl E, Giovangrandi L, Kovacs GTA.
+Characterization of electrophysiological conduction in cardiomyocyte co-cultures
+using co-occurrence analysis.
+Comp Meth Biomech Biomed Eng,
+doi:10.1080/10255842.2011.615310.
+[http://biomechanics.stanford.edu/paper/CMBBE13.pdf (download)]
+Famaey N, Vander Sloten J, Kuhl E.
+A three-constituent damage model for arterial clamping in computer-assisted surgery.
+Biomech Mod Mechanobio, 2013;12:123-136.
+[http://biomechanics.stanford.edu/paper/BMMB13.pdf (download)]
+Dal H, G&ouml;ktepe S, Kaliske M, Kuhl E.
+A fully implicit finite element method for bidomain models of cardiac electromechanics.
+Comp Meth Appl Mech Eng, 2013;253:323-336.
+[http://biomechanics.stanford.edu/paper/CMAME13.pdf (download)]
+Rausch MK, Tibayan FA, Miller DC, Kuhl E.
+Evidence of adaptive mitral leaflet growth.
+J Mech Behavior Biomed Mat, 2012;15:208-217.
+[http://biomechanics.stanford.edu/paper/JMBBM12a.pdf (download)]
+Z&ouml;llner AM, Abilez OJ, B&ouml;l M, Kuhl E.
+Stretching skeletal muscle - Chronic muscle lengthening through sarcomerogenesis.
+PLoS ONE, 2012;7(10):e45661.
+[http://biomechanics.stanford.edu/paper/PLOS12.pdf (download)]
+[http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0045661 (online)]
+Bothe W, Rausch MK, Kvitting JP, Echtner DK, Walther M, Ingels NB, Kuhl E, Miller DC.
+How do annuloplasty rings affect mitral annular strains in the normal beating ovine heart?
+Circulation, 2012;126:S231-S238.
+[http://biomechanics.stanford.edu/paper/CIRC12.pdf (download)]
+Buganza Tepole A, Gosain AK, Kuhl E.
+Stretching skin - The physiological limit and beyond.
+Int J Nonlin Mech, 2012;47:938-949.
+[http://biomechanics.stanford.edu/paper/IJNLM12.pdf (download)]
+Z&ouml;llner AM, Buganza Tepole A, Gosain AK, Kuhl E.
+Growing skin - Tissue expansion in pediatric forehead reconstruction.
+Biomech Mod Mechanobio, 2012;11:855-867.
+[http://biomechanics.stanford.edu/paper/BMMB12a.pdf (download)]
+Waffenschmidt T, Menzel A, Kuhl E.
+Anisotropic density growth of bone. A computational micro-sphere approach.
+Int J Solids Structures, 2012;49:1928-1946.
+[http://biomechanics.stanford.edu/paper/IJSS12.pdf (download)]
+Menzel A, Kuhl E.
+Frontiers in growth and remodeling.
+Mech Res Comm, 2012;42,1-14.
+[http://biomechanics.stanford.edu/paper/MRCOM12.pdf (download)]
+Klepach D, Lee LC, Wenk JF, Ratcliffe MB, Zohdi TI, Navia JA, Kassab GS, Kuhl E, Guccione JM.
+Growth and remodeling of the left ventricle:
+A case study of myocardial infarction and surgical ventricular restoration.
+Mech Res Comm, 2012;42,134-141.
+[http://biomechanics.stanford.edu/paper/MRCOM12a.pdf (download)]
+Dal H, G&ouml;ktepe S, Kaliske M, Kuhl E.
+A fully implicit finite element method for bidomain models of cardiac electrophysiology.
+Comp Meth Biomech Biomed Eng, 2012;15,645-656.
+[http://biomechanics.stanford.edu/paper/CMBBE12a.pdf (download)]
+Wong J, Abilez OJ, Kuhl E.
+Computational optogenetics - A novel continuum framework for the photoelectrochemistry of living systems. J Mech Phys Solids, 2012;60:1158-1178.
+[http://biomechanics.stanford.edu/paper/JMPS12.pdf (download)]
+Schmid H, Pauli L, Paulus A, Kuhl E, Itskov M.
+Consistent formulation of the growth process at the kinematic and constitutive level for soft tissues composed of multiple constituents.
+Comp Meth Biomech Biomed Eng, 2012;15:547-561.
+[http://biomechanics.stanford.edu/paper/CMBBE12.pdf (download)]
+Tsamis A, Cheng A, Nguyen TC, Langer F, Miller DC, Kuhl E.
+Kinematics of cardiac growth - In vivo characterization of growth tensors and strains.
+J Mech Behavior Biomed Mat, 2012;8:165-177.
+[http://biomechanics.stanford.edu/paper/JMBBM12.pdf (download)]
+Z&ouml;llner AM, Buganza Tepole A, Kuhl E.
+On the biomechanics and mechanobiology of growing skin.
+J Theor Bio, 2012;297:166-175.
+[http://biomechanics.stanford.edu/paper/JTBIO12.pdf (download)]
+Rausch MK, Bothe W, Kvitting JP, Swanson JC, Miller DC, Kuhl E.
+Mitral valve annuloplasty - A quantitative clinical and mechanical comparison of different annuloplasty devices.
+Ann Biomed Eng, 2012;40:750-761.
+[http://biomechanics.stanford.edu/paper/ABME12.pdf (download)]
+Pang H, Shiwalkar AP, Madormo CM, Taylor RE, Andriacchi TP, Kuhl E.
+Computational modeling of bone density profiles in response to gait: A subject-specific approach.
+Biomech Mod Mechanobio, 2012;11:379-390.
+[http://biomechanics.stanford.edu/paper/BMMB12.pdf (download)]
+B&ouml;l M, Abilez OJ, Assar AN, Zarins CK, Kuhl E.
+In vitro / in silico characterization of active and passive stresses in cardiac muscle.
+Int J Multiscale Comp Eng, 2012;10:171-188.
+[http://biomechanics.stanford.edu/paper/IJMCE12.pdf (download)]
+Rausch MK, Dam A, G&ouml;ktepe S, Abilez OJ, Kuhl E.
+Computational modeling of growth: Systemic and pulmonary hypertension in the heart.
+Biomech Mod Mechanobio, 2011;10:799-811.
+[http://biomechanics.stanford.edu/paper/BMMB11.pdf (download)]
+Buganza Tepole A, Ploch CJ, Wong J, Gosain AK, Kuhl E.
+Growing skin - A computational model for skin expansion in reconstructive surgery.
+J Mech Phys Solids, 2011;59:2177-2190.
+[http://biomechanics.stanford.edu/paper/JMPS11a.pdf (download)] [http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3212404/ (online)]
+Wong J, G&ouml;ktepe S, Kuhl E.
+Computational modeling of electrochemical coupling: A novel finite element approach towards ionic models for cardiac electrophysiology.
+Comp Meth Appl Mech Eng, 2011;200:3139-3158.
+[http://biomechanics.stanford.edu/paper/CMAME11.pdf (download)]
+Abilez OJ, Wong J, Prakash R, Deisseroth K, Zarins CK, Kuhl E.
+Multiscale computational models for optogenetic control of cardiac function.
+Biophys J, 2011;101:1326-1334.
+[http://biomechanics.stanford.edu/paper/BIOPJ11.pdf (download)]
+[http://med.stanford.edu/ism/2011/september/cardiomyocyte.html (report)]
+Bothe W, Kuhl E, Kvitting JP, Rausch MK, G&ouml;ktepe S, Swanson JC, Farahmandnia S, Ingels NB, Miller DC.
+Rigid, complete annuloplasty rings increase anterior mitral leaflet strains in the normal beating ovine heart.
+Circulation, 2011;124:S81-S96.
+[http://biomechanics.stanford.edu/paper/CIRC11.pdf (download)]
+Wenk JF, Eslami P, Zhang Z, Xu C, Kuhl E, Gorman JH, Robb JD, Ratcliffe MB, Gorman RC, Guccione JM.
+A novel method for quantifying the in-vivo mechanical effect of material injected into a myocardial infarction.
+Ann Thorac Surg, 2011;92:935-941.
+[http://biomechanics.stanford.edu/paper/ATS11.pdf (download)]
+Tsamis A, Bothe W, Kvitting JP, Swanson JC, Miller DC, Kuhl E.
+Active contraction of cardiac muscle:
+In vivo characterization of mechanical activation sequences in the beating heart.
+J Mech Behavior Biomed Mat, 2011;4:1167-1176.
+[http://biomechanics.stanford.edu/paper/JMBBM11.pdf (download)]
+Rausch MK, Bothe W, Kvitting JP, Swanson JC, Ingels NB, Miller DC, Kuhl E.
+Characterization of mitral valve annular dynamics in the beating heart.
+Ann Biomed Eng, 2011;39:1690-1702.
+[http://biomechanics.stanford.edu/paper/ABME11.pdf (download)]
+Rausch MK, Bothe W, Kvitting JP, G&ouml;ktepe S, Miller DC, Kuhl E.
+In vivo dynamic strains of the ovine anterior mitral valve leaflet.
+J Biomechanics, 2011;44:1149-1157.
+[http://biomechanics.stanford.edu/paper/JBIOM11.pdf (download)]
+Ambrosi D, Ateshian GA, Arruda EM, Cowin SC, Dumais J, Goriely A, Holzapfel GA, Humphrey JD, Kemkemer R, Kuhl E, Olberding JE, Taber LA, Garikipati K.
+Perspectives on biological growth and remodeling.
+J Mech Phys Solids, 2011;59:863-883.
+[http://biomechanics.stanford.edu/paper/JMPS11.pdf (download)]
+G&ouml;ktepe S, Acharya SNS, Wong J, Kuhl E.
+Computational modeling of passive myocardium.
+Int J Num Meth Biomed Eng, 2011;27:1-12.
+[http://biomechanics.stanford.edu/paper/IJNMB11.pdf (download)]
+Kvitting JP, Bothe W, G&ouml;ktepe S, Rausch MK, Swanson JC, Kuhl E, Ingels NB, Miller DC.
+Anterior mitral leaflet curvature during the cardiac cycle in the normal ovine heart.
+Circulation, 2010;122:1683-1689.
+[http://biomechanics.stanford.edu/paper/CIRC10.pdf (download)]
+G&ouml;ktepe S, Abilez OJ, Kuhl E.
+A generic approach towards finite growth with examples of athlete's heart, cardiac dilation, and cardiac wall thickening.
+J Mech Phys Solids, 2010;58:1661-1680.
+[http://biomechanics.stanford.edu/paper/JMPS10.pdf (download)]
+G&ouml;ktepe S, Abilez OJ, Parker KK, Kuhl E.
+A multiscale model for eccentric and concentric cardiac growth
+through sarcomerogenesis.
+J Theor Bio, 2010;265:433-442.
+[http://biomechanics.stanford.edu/paper/JTBIO10.pdf (download)]
+Rajagopal A, Fischer P, Kuhl E, Steinmann P.
+Natural element analysis of the Cahn-Hilliard phase-field model.
+Comp Mech, 2010;46:471-493.
+[http://biomechanics.stanford.edu/paper/CMECH10a.pdf (download)]
+G&ouml;ktepe S, Bothe W, Kvitting JP, Swanson J, Ingels NB, Miller DC, Kuhl E.
+Anterior mitral leaflet curvature in the beating ovine heart.
+A case study using videofluoroscopic markers and subdivision surfaces.
+Biomech Mod Mechanobio, 2010;9:281-293.
+[http://biomechanics.stanford.edu/paper/BMMB10.pdf (download)]
+Kotikanyadanam M, G&ouml;ktepe S, Kuhl E.
+Computational modeling of electrocardiograms - A finite element approach towards cardiac excitation.
+Int J Num Meth Biomed Eng, 2010;26:524-533.
+[http://biomechanics.stanford.edu/paper/IJNMB10.pdf (download)]
+Gitman I, Askes H, Kuhl E, Aifantis EC.
+Stress concentrations in fractured compact bone simulated with a special class of anisotropic gradient elasticity.
+Int J Solids Structures, 2010;47:1099-1107.
+[http://biomechanics.stanford.edu/paper/IJSS10.pdf (download)]
+G&ouml;ktepe S, Wong J, Kuhl E.
 Atrial and ventricular fibrillation -
 Computational simulation of spiral waves in cardiac tissue.
-submitted for publication.
+Arch Appl Mech, 2010;80:569-580.
-[http://biomechanics.stanford.edu/paper/ARCHV08.pdf (download)]
+[http://biomechanics.stanford.edu/paper/AMECH10.pdf (download)]
-Goktepe S, Kuhl E.
+Zhang J, Michalenko MM, Kuhl E, Ovaert TC.
-Computational modeling of electrophysiology: A novel finite element approach.
+Characterization of indentation response and stiffness reduction of bone using a continuum damage model.
-submitted for publication.
+J Mech Behavior Biomed Mat, 2010;3:189-202.
-[http://biomechanics.stanford.edu/paper/IJNME08a.pdf (download)]
+[http://biomechanics.stanford.edu/paper/JMBBM09.pdf (download)]
-Zhang J, Kuhl E, Ovaert T.
+G&ouml;ktepe S, Kuhl E.
-Simulation of micro-indentation behavior of bone via a plastic-damage model.
+Electromechanics of the heart -
-submitted for publication.
+A unified approach to the strongly coupled excitation-contraction problem.
-[http://biomechanics.stanford.edu/paper/JBIOM08.pdf (download)]
+Comp Mech, 2010;45:227-243.
+[http://biomechanics.stanford.edu/paper/CMECH10.pdf (download)]
-Boel M, Reese S, Parker KK, Kuhl E.
+Krishnamurthy G, Itoh A, Swanson J, Bothe W, Karlsson M, Kuhl E, Miller DC, Ingels NB.
+Regional stiffening of the mitral valve anterior leaflet in the beating heart.
+J Biomechanics, 2009;42:2697-2701.
+[http://biomechanics.stanford.edu/paper/JBIOM09a.pdf (download)]
+Jager P, Steinmann S, Kuhl E.
+Towards the treatment of boundary conditions for global crack path tracking in three-dimensional brittle fracture.
+Comp Mech. 2009;45:91-107.
+[http://biomechanics.stanford.edu/paper/CMECH09a.pdf (download)]
+Krishnamurthy G, Itoh A, Bothe W, Swanson J, Kuhl E, Karlsson M, Miller DC, Ingels NB.
+Stress-strain behavior of mitral valve leaflets in the beating ovine heart.
+J Biomechanics. 2009;42:1909-1916.
+[http://biomechanics.stanford.edu/paper/JBIOM09.pdf (download)]
+Itoh A, Krishnamurthy G, Swanson J, Ennis D, Bothe W, Kuhl E, Karlsson M, Davis L, Miller DC, Ingels NB.
+Active stiffening of mitral valve leaflets in the beating heart.
+Am J Physiol Heart Circ Physiol. 2009;296:H1766-H1773.
+[http://biomechanics.stanford.edu/paper/AJPHC09.pdf (download)]
+G&ouml;ktepe S, Kuhl E.
+Computational modeling of electrophysiology: A novel finite element approach.
+Int J Num Meth Eng. 2009; 79:156-178.
+[http://biomechanics.stanford.edu/paper/IJNME09.pdf (download)]
+B&ouml;l M, Reese S, Parker KK, Kuhl E.
 Computational modeling of muscular thin films for cardiac repair.
-Comp Mech. DOI: 10.1007/s00466-008-0328-5.
+Comp Mech. 2009;43:535-544.
-[http://biomechanics.stanford.edu/paper/CMECH08a.pdf (download)]
+[http://biomechanics.stanford.edu/paper/CMECH09.pdf (download)]
+Taylor RE, Zheng C, Jackson PR, Doll JC, Chen JC, Holzbaur KRS, Besier T, Kuhl E.
+The phenomenon of twisted growth:
+Humeral torsion in dominant arms of high performance tennis players.
+Comp Meth Biomech Biomed Eng. 2009;12:83-93.
+[http://biomechanics.stanford.edu/paper/CMBBE08.pdf (download)]
 Krishnamurthy G, Ennis DB, Itoh A, Bothe W, Swanson-Birchill JC,
@@ Line 53: / Line 306: @@
 [http://biomechanics.stanford.edu/paper/AJPHC08.pdf (download)]
-Taylor RE, Zheng C, Jackson PR, Doll JC, Chen JC, Holzbaur KRS, Besier T, Kuhl E.
+Jha CM, Salvia J, Chandorkar SA, Melamud R, Kuhl E, Kenny TW.
-The phenomenon of twisted growth:
+Acceleration insensitive encapsulated silicon microresonator.
-Humeral torsion in dominant arms of high performance tennis players.
+Appl Phys Let. 2008;93:234103.1-234103.3.
-Comp Meth Biomech Biomed Eng.  DOI: 10.1080/10255840802178046.
+[http://biomechanics.stanford.edu/paper/APL08.pdf (download)]
-[http://biomechanics.stanford.edu/paper/CMBBE08.pdf (download)]
-Jager P, Steinmann P, Kuhl E.
-A novel numerical framework for the threedimensional
-modeling of brittle fracture.
-submitted for publication.
-[http://biomechanics.stanford.edu/paper/JAMEC08.pdf (download)]
 Jager P, Schmalholz SM, Schmid DW, Kuhl E.
 Brittle fracture during folding rocks - A finite element study.
-Phil Mag. DOI: 10.1080/14786430802320101.
+Phil Mag. 2008;88:3245-3263.
 [http://biomechanics.stanford.edu/paper/PHILM08.pdf (download)]
-Jager P, Steinmann P, Kuhl E.
-Modeling three-dimensional crack propagation - A comparison of crack path tracking strategies.
-Int J Num Meth Eng, DOI: 10.1002/nme.2353.
-[http://biomechanics.stanford.edu/paper/IJNME08.pdf (download)]
 Meier HA, Schlemmer M, Wagner C, Kerren A, Hagen H, Kuhl E, Steinmann P.
@@ Line 79: / Line 320: @@
 IEEE Trans Vis Comp Graphics. 2008;14:1-16.
 [http://biomechanics.stanford.edu/paper/TVCG08.pdf (download)]
+Jager P, Steinmann P, Kuhl E.
+Modeling three-dimensional crack propagation - A comparison of crack path tracking strategies.
+Int J Num Meth Eng, 2008;76:1328-1352.
+[http://biomechanics.stanford.edu/paper/IJNME08.pdf (download)]
 Himpel G, Menzel A, Kuhl E, Steinmann P.
 Time-dependent fiber reorientation of transversely isotropic continua - Finite element formulation and consistent linearization.
 Int J Num Meth Eng. 2008;73:1413-1433.
-[http://biomechanics.stanford.edu/paper/IJNME07a.pdf (download)]
+[http://biomechanics.stanford.edu/paper/IJNME08a.pdf (download)]
 Jager P, Steinmann P, Kuhl E.
 On local tracking algorithms for the simulation of three-dimensional discontinuities.
 Comp Mech, 2008;42:395-406.
-[http://biomechanics.stanford.edu/paper/CMECH07a.pdf (download)]
+[http://biomechanics.stanford.edu/paper/CMECH08.pdf (download)]
 Meier HA, Steinmann P, Kuhl E.
@@ Line 102: / Line 348: @@
 A note on the generation of periodic granular microstructures based on grain size distributions.
 Int J Num Anal Meth Geomech. 2008;32:509-522.
-[http://biomechanics.stanford.edu/paper/IJNAMG07.pdf (download)]
+[http://biomechanics.stanford.edu/paper/IJNAMG08.pdf (download)]
 Kuhl E, Holzapfel GA.