Advanced search
Publication Cover
Computer Methods in Biomechanics and Biomedical Engineering Volume 15, 2012 - Issue 5
Submit an article Journal homepage
309
Views
21
CrossRef citations to date
0
Altmetric
Original Articles

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

H. Schmid Department of Continuum Mechanics, RWTH Aachen University, Eilfschornsteinstrasse 18, 56062, Aachen, GermanyCorrespondence[email protected]
,
L. Pauli Department of Continuum Mechanics, RWTH Aachen University, Eilfschornsteinstrasse 18, 56062, Aachen, Germany
,
A. Paulus Department of Continuum Mechanics, RWTH Aachen University, Eilfschornsteinstrasse 18, 56062, Aachen, Germany
,
E. Kuhl Department of Mechanical Engineering, Stanford University, 496 Lomita Mall, Durand 217, Stanford, CA, USA
&
M. Itskov Department of Continuum Mechanics, RWTH Aachen University, Eilfschornsteinstrasse 18, 56062, Aachen, Germany
Pages 547-561 | Received 01 Jul 2010, Accepted 13 Dec 2010, Published online: 23 Feb 2011

References

  • Alastrue , V , Martinez , MA , Doblare , M and Menzel , A . 2009 . Anisotropic micro-sphere-based finite elasticity applied to blood vessel modelling . J Mech Phys Solids , 57 ( 1 ) : 178 – 203 .
  • Anidjar , S and Kieffer , E . 1992 . Pathogenesis of acquired aneurysms of the abdominal aorta . Ann Vasc Surg , 6 : 298 – 305 .
  • Ateshian , GA , Costa , KD , Azeloglu , EU , Morrison , B III and Hung , CT . 2009 . Continuum modeling of biological tissue growth by cell division, and alteration of intracellular osmolytes and extracellular fixed charge density . J Biomech Eng , 131 : 1 – 12 .
  • Bathe , KJ . 1982 . Finite element procedures , Upper Saddle River, NJ : Prentice-Hall, Inc .
  • Beaupre , GS , Orr , TE and Carter , DR . 2005 . An approach for time-dependent bone modeling and remodeling-theoretical development . J Orthop Res , 8 : 651 – 661 .
  • Bellousov , LV . 1998 . The dynamic architecture of a developing organism: an interdisciplinary approach to the development of organisms , Dordrecht : Kluwer .
  • Carter , DR and Hayes , WC . 1977 . The compressive behaviour of bone as a two-phase porous structure . J Bone Joint Surg , 59-A7 : 175 – 193 .
  • Cowin , SC . 1996 . Strain or deformation rate dependent finite growth in soft tissues . J Biomech , 29 : 647 – 649 .
  • Cowin , SC and Hegedus , DH . 1976 . Bone remodeling 1: theory of adaptive elasticity . J Elasticity , 6 ( 3 ) : 313 – 326 .
  • Driessen , NJB , Bouten , CVC and Baaijens , FPT . 2005 . A structural constitutive model for collagenous cardiovascular tissues incorporating the angular fiber distribution . J Biomech Eng , 127 : 494 – 504 .
  • Driessen , NJB , Peters , GWM , Huyghe , JM , Bouten , CVC and Baaijens , FPT . 2003 . Remodelling of continuously distributed collagen fibres in soft connective tissues . J Biomech , 36 : 1151 – 1158 .
  • Driessen , NJB , Wilson , W , Bouten , CVC and Baaijens , FPT . 2004 . A computational model for collagen fibre remodelling in the arterial wall . J Theor Biol , 226 : 53 – 64 .
  • Ehlers , W , Markert , B and Röhrle , O . 2009 . Computational continuum biomechanics with application to swelling media and growth phenomena . GAMM Mitt , 32 ( 2 ) : 135 – 156 .
  • Ehret , AE and Itskov , M . 2007 . A polyconvex hyperelastic model for fibre reinforced materials in application to soft tissues . J Mater Sci , 42 : 8853 – 8863 .
  • Fisher , GM and Llaurado , JG . 1966 . Collagen and elastin content in canine arteries selected from functionally different vascular beds . Circ Res , 19 : 394 – 399 .
  • Garikipati , K . 2009 . The kinematics of biological growth . Appl Mech Rev , 62 ( 3 ) : 030801
  • Garikipati , K , Arruda , EM , Grosh , K , Narayanan , H and Calve , S . 2004 . A continuum treatment of growth in biological tissue: the coupling of mass transport and mechanics . J Mech Phys Solids , 52 ( 7 ) : 1595 – 1625 .
  • Gleason , RL and Humphrey , JD . 2004 . A 2-d model of flow-induced alterations in the geometry, structure, and properties of carotid arteries . J Biomech Eng , 126 : 371 – 381 .
  • Göktepe , S , Abilez , OJ , Parker , KK and Kuhl , E . 2010 . A multiscale model for eccentric and concentric cardiac growth through sarcomerogenesis . J Theor Biol , 265 : 433 – 442 .
  • Grytz , R and Meschke , G . 2010 . A computational remodeling approach to predict the physiological architecture of the collagen fibril network in corneo-scleral shells . Biomech Model Mechanobiol , DOI 10.1007/s10237-009-0173-2
  • Grytz , R , Meschke , G and Jonas , JB . 2010 . The collagen fibril architecture in the lamina cribrosa and peripapillary sclera predicted by a computational remodeling approach . Biomech Model Mechanobiol. , DOI 10.1007/s10237-010-0240-8
  • Hartmann , S and Neff , P . 2003 . Polyconvexity of generalized polynomial-type hyperelastic strain energy functions for near-incompressibility . Int J Solids Struct , 40 : 2767 – 2791 .
  • Himpel G. 2007. Computational modelling of biomechanical phenomena – remodelling, growth and reorientation. [PhD thesis]. [Germany]: Technical University Kaiserslautern
  • Himpel , G , Kuhl , E , Menzel , A and Steinmann , P . 2005 . Computational modelling of isotropic multiplicative growth . CMES , 8 ( 2 ) : 119 – 134 .
  • Himpel , G , Menzel , A , Kuhl , E and Steinmann , P . 2007 . Time-dependent fibre reorientation of transversely isotropic continua – finite element formulation and consistent linearization . Int J Numer Methods Eng , DOI: 10.1002/nme.2124
  • Holzapfel , GA . 2000 . Nonlinear solid mechanics , Chichester : Wiley .
  • Holzapfel , GA . 2006 . Determination of material models for arterial walls from uniaxial extension tests and histological structure . J Elasticity , 238 : 290 – 302 .
  • Holzapfel , GA , Gasser , TC and Ogden , RW . 2000 . A new constitutive framework for arterial wall mechanics and a comparative study for material models . J Theor Biol , 61 : 1 – 48 .
  • Hu , J-J , Fossum , TW , Miller , MW , Xu , H , Liu , J-C and Humphrey , JD . 2007 . Biomechanics of the porcine basilar artery in hypertension . Ann Biomed Eng , 35 ( 1 ) : 19 – 29 .
  • Huiskes , R , Weinans , H , Grootenboer , HJ , Delstra , M , Fudala , B and Slooff , TJ . 1987 . Adaptive-bone remodelling theory applied to prosthetic design analysis . J Biomech , 20 : 1135 – 1150 .
  • Humphrey , JD . 2001 . Stress, strain, and mechanotransduction in cells . J Biomech Eng , 123 : 638 – 641 .
  • Humphrey , JD . 2002 . Cardiovascular solid mechanics – cells, tissues, and organs , New York : Springer .
  • Humphrey , JD and Rajagopal , KR . 2002 . A constrained mixture model for growth and remodeling of soft tissues . Math Models Methods Appl Sci , 12 ( 3 ) : 407 – 430 .
  • Itskov , M , Ehret , AE and Mavrilas , D . 2006 . A polyconvex strain–energy function for soft collagenous tissue . Biomech Model Mechanobiol , 5 : 17 – 26 .
  • Kim , YS , Galis , ZS , Rachev , A , Han , H-C and Vito , RP . 2009 . Matrix metalloproteinase-2 and -9 are associated with high stresses predicted using a nonlinear heterogeneous model of arteries . J Biomech Eng , 131 : 1 – 10 .
  • Klisch , SM , Chen , SS , Sah , RL and Hoger , A . 2003 . A growth mixture theory for cartilage with application to growth-related experiments on cartilage explants . J Biomech Eng , 125 : 169 – 179 .
  • Klisch , SM , van Dyke , TJ and Hoger , A . 2001 . A theory of volumetric growth for compressible elastic biological materials . Math Mech Solids , 6 : 551 – 575 .
  • Kondo , S , Hashoimoto , N , Kikuchi , H , Hazama , F , Nagata , I and Kataoka , H . 1997 . Cerebral aneurysms arising at nonbranching sites. An experimental study . Stroke , 28 : 398 – 404 .
  • Kuhl , E and Holzapfel , GA . 2007 . A continuum model for remodeling in living structures . J Mater Sci , 42 : 8811 – 8823 .
  • Kuhl , E , Maas , R , Himpel , G and Menzel , A . 2006 . A continuum model for remodeling in living structures . J Mater Sci , 6 ( 5 ) : 321 – 331 .
  • Kuhl , E , Menzel , A and Steinmann , P . 2003 . Computational modeling of growth – a critical review, a classification of concepts and two new consistent approaches . Comput Mech , 32 : 71 – 88 .
  • Lee , EH . 1969 . Elastic–plastic deformations at finite strains . J Appl Mech , 36 : 1 – 6 .
  • Machyshyn , IM , Bovendeerd , PHM , van de Ven , AAF , Rongen , PMJ and van de Vosse , FN . 2010 . A model for arterial adaptation combining microstructural collagen remodeling and 3D tissue growth . Biomech Model Mechanobiol , DOI 10.1007/s10237-010-0204-z
  • Menzel , A . 2005 . Modelling of anisotropic growth in biological tissues . Biomech Model Mechanobiol , 3 ( 3 ) : 147 – 171 .
  • Menzel , A . 2007 . A fibre reorientation model for orthotropic multiplicative growth configurational driving stresses, kinematics-based reorientation, and algorithmic aspects . Biomech Model Mechanobiol , 6 : 303 – 320 .
  • Menzel , A and Waffenschmidt , T . 2009 . A microsphere-based remodelling formulation for anisotropic biological tissues . Philos Trans R Soc A , 367 : 3499 – 3523 .
  • Nash , MP and Hunter , PJ . 2000 . Computational mechanics of the heart . J Elasticity , 61 : 113 – 141 .
  • Oden , JT . 1972 . Finite elements of nonlinear continua – an introduction , Vol. 1 , New York : McGraw-Hill .
  • Ogden , RW . 1997 . Non-linear elastic deformations , Wiley : Dover .
  • Peng , SH and Chang , WV . 1997 . A compressible approach in finite element analysis of rubber–elastic materials . Comput Struct , 62 ( 3 ) : 573 – 593 .
  • Pope , A , Sands , GB , Smaill , B and LeGrice , IJ . 2008 . Three-dimensional transmural organization of perimysial collagen in the heart . Am J Heart Physiol , 295 : H1243 – H1252 .
  • Richter , G and Kellner , A . 1963 . Hypertrophy in the human heart at the level of fine structure . J Biomech , 18 : 195 – 206 .
  • Rizzo , RJ , McCarthy , WJ and Dixit , SN . 1989 . Collagen types and matrix protein content in human abdominal aortic aneurysms . J Vasc Surg , 10 : 365 – 373 .
  • Rodriguez , EK , Hoger , A and McCulloch , AD . 1994 . Stress-dependent finite growth in soft elastic tissues . J Biomech , 27 : 455 – 467 .
  • Sanders , JE and Goldstein , BS . 2001 . Collagen fibril diameters increase and fibril densities decrease in skin subjected to repetitive compressive and shear stresses . J Biomech , 34 : 1581 – 1587 .
  • Sands , GB , Gerneke , DA , Hooks , DA , Green , CR , Smaill , BH and LeGrice , IJ . 2005 . Automated imaging of extended tissue volumes using confocal microscopy . Microsc Res Technol , 67 : 227 – 239 .
  • Schmid , H , Watton , PN , Maurer , MM , Winkler , P , Wimmer , J , Wang , Y , Röhrle , O and Itskov , M . 2010 . Impact of transmural heterogeneities on arterial adaptation – application to aneurysm formation . Biomech Model Mechanobiol , 9 ( 3 ) : 295 – 315 .
  • Spencer , AJM . 1984 . “ Constitutive theory for strongly anisotropic solids ” . In Continuum theory of the mechanics of fibre-reinforced composites , Edited by: Spencer , AJM . New York : Springer-Verlag .
  • Sturgis , JE , Robinson , JP and Voytik-Harbin , SL . 2002 . Tensile mechanical properties of three-dimensional type i collagen extracellular matrices with varied microstructure . J Biomech Eng , 124 ( 2 ) : 214 – 223 .
  • Taber , LA . 1995 . Biomechanics of growth, remodeling, and morphogenesis . Appl Mech Rev , 48 ( 8 ) : 487 – 646 .
  • Taber , LA . 2001 . Biomechanics of cardiovascular development . Annu Rev Biomed Eng , 3 : 1 – 25 .
  • Taber , LA . 2008 . Theoretical study of Beloussov's hyper-restoration hypothesis for mechanical regulation of morphogenesis . Biomech Model Mechanobiol , 7 : 427 – 441 .
  • Takamizawa , K and Hayashi , K . 1987 . Strain energy density function and uniform strain hypothesis for arterial mechanics . J Biomech Eng , 20 : 7 – 17 .
  • Takamizawa , K and Hayashi , K . 1988 . Uniform strain hypothesis and thin-walled theory in arterial mechanics . Biorheology , 25 : 555 – 565 .
  • Taylor , RE , Zheng , C , Jackson , PR , Doll , JC , Chen , JC , Holzbaur , KRS , Besier , T and Kuhl , E . 2009 . The phenomenon of twisted growth: humeral torsion in dominant arms of high performance tennis players . Comput Methods Biomech Biomed Engin , 12 : 83 – 93 .
  • Watton , PN , Hill , NA and Heil , M . 2004 . A mathematical model for the growth of the abdominal aortic aneurysm . Biomech Model Mechanobiol , 3 : 98 – 113 .
  • Watton , PN , Ventikos , Y and Holzapfel , GA . 2009 . Modelling the growth and stabilization of cerebral aneurysms . Math Med Biol , 26 ( 2 ) : 133 – 164 .
  • Weiss , J , Maker , B and Govindjee , S . 1996 . Finite-element implementation of incompressible, transversely isotropic hyperelasticity . Comput Methods Appl Mech Engin , 135 : 107 – 128 .
  • Wolff , J . 1892 . Das Gesetz der transformation der knochen , Berlin : Hirschwald .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.