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Computer Methods in Biomechanics and Biomedical Engineering Volume 19, 2016 - Issue 1
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Articles

Computational modeling of chemo-bio-mechanical coupling: a systems-biology approach toward wound healing

A. Buganza TepoleDepartment of Mechanical Engineering, Stanford University, Stanford, CA94305, USACorrespondence[email protected]
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E. KuhlDepartment of Mechanical Engineering, Stanford University, Stanford, CA94305, USA;Department of Bioengineering, Stanford University, Stanford, CA94305, USAView further author information
Pages 13-30 | Received 03 Jul 2014, Accepted 22 Oct 2014, Published online: 24 Nov 2014

References

  • Aarabi S, Bhatt KA, Shi Y, Paterno J, Chang EI, Loh SA, Holmes JW, Longaker MT, Yee H, Gurtner GC. 2007. Mechanical load initiates hypertrophic scar formation through decreased cellular apoptosis. FASEB J. 21:3250–3261.
  • Agha R, Ogawa R, Pietramaggiori G, Orgill DP. 2011. A review of the role of mechanical forces in cutaneous wound healing. J Surg Res. 171:700–708.
  • Bayat A, McGrouther DA, Ferguson MW. 2003. Skin scarring. BMJ. 326:88–92.
  • Ben Amar M, Wu M. 2014. Re-epithelialization: advancing epithelium frontier during wound healing. J R Soc Interface., doi:10.1098/rsif.2013.1038.
  • Böl M, Sturmat M, Weichert C, Kober C. 2011. A new approach for the validation of skeletal muscle modeling using MRI data. Comp Mech. 47:591–601.
  • Bowes LE, Jimenez MC, Hiester ED, Sacks MS, Brahmatewari J, Mertz PE, William H. 1999. Collagen fiber orientation as quantified by small angle light scattering in wounds treated with transforming growth factor-beta2 and its neutalizing antibody. Wound Repair Regen. 7:179–186.
  • Brown BC, McKenna SP, Siddhi K, McGrouther DA, Bayat A. 2008. The hidden cost of skin scars: quality of life after skin scarring. J Plast Reconstr Aesthet Surg. 61:1049–1058.
  • Buganza Tepole A, Gart M, Gosain AK, Kuhl E. 2014. Characterization of living skin using multi view stereo and isogeometric analysis. Acta Biomater. 10:4822–4831.
  • Buganza Tepole A, Gosain AK, Kuhl E. 2012. Stretching skin: the physiological limit and beyond. Int J Nonlin Mech. 47:938–949.
  • Buganza Tepole A, Gosain AK, Kuhl E. 2014. Computational modeling of skin: using stress profiles as predictor for tissue necrosis in reconstructive surgery. Comput Struct. 143:32–39.
  • Buganza Tepole A, Kuhl E. 2013. Review: systems-based approaches towards wound healing. Pediatr Res. 73:553–563.
  • Buganza Tepole A, Ploch PC, Wong J, Gosain AK, Kuhl E. 2011. Growing skin: a computational model for skin expansion in reconstructive surgery. J Mech Phys Solid. 59:2177–2190.
  • Buganza Tepole A, Steinberg JP, Kuhl E, Gosain AK. 2014. Application of finite element modeling to optimize flap design with tissue expansion. Plast Reconstr Surg. 134:785–792.
  • Chambert J, Zhao L, Remache D, Jacquet E. 2012. Numerical analysis of keloid scar in the presternal area. Comput Method Biomech Biomed Eng. 15:23–24.
  • Chary SR, Jain RK. 1989. Direct measurement of interstitial convection and diffusion of albumin in normal and neoplastic tissues by fluorescence photobleaching. Proc Natl Acad Sci USA. 86:5385–5389.
  • Chiquet M, Gelman L, Lutz R, Maier S. 2009. From mechanotransduction to extracellular matrix gene expression in fibroblasts. Biochim Biophys Acta. 1793:911–920.
  • Cumming BD, McElwain DLS, Upton Z. 2009. A mathematical model of wound healing and subsequent scarring. J R Soc Interface. 7:19–34.
  • Dallon JC, Sherratt JA, Maini PK. 2001. Modeling the effects of transforming growth factor-beta on extracellular matrix alignment in dermal wound repair. Wound Repair Regen. 9:278–286.
  • Diegelmann RF, Evans MC. 2004. Wound healing: an overview of acute, fibrotic and delayed healing. Front Biosci. 9:283–289.
  • Flynn C, Taberner A, Nielsen P. 2011. Mechanical characterisation of in vivo human skin using a 3D force-sensitive micro-robot and finite element analysis. Biomech Model Mechanobiol. 10:27–38.
  • Garikipati K, Olberding JE, Narayanan H, Arruda EM, Grosh K, Calve S. 2006. Biological remodeling: stationary energy, configurational change, internal variables and dissipation. J Mech Phys Solid. 54:1493–1515.
  • Garzon-Alvarado DA, Sandoval RPC, Acosta RCV. 2012. A mathematical model of medial collateral ligament repair: migration, fibroblast proliferation and collagen formation. Comput Meth Biomech Biomed Eng. 15:571–583.
  • Gurtner GC, Dauskardt RH, Wong VW, Bhatt KA, Wu K, Vial IN, Padois K, Korman JM, Longaker MT. 2011. Improving cutaneous scar formation by controlling the mechanical environment. Ann Surg. 254:217–225.
  • Gurtner GC, Werner S, Barrandon Y, Longaker MT. 2008. Wound repair and regeneration. Nature. 453:314–321.
  • Herbert SP, Stainier DY. 2011. Molecular control of endothelial cell behaviour during blood vessel morphogenesis. Nat Rev Mol Cell Biol. 12:551–564.
  • Himpel G, Menzel A, Kuhl E, Steinmann P. 2008. Time-dependent fiber reorientation of transversely isotropic continua: finite element formulation and consistent linearization. Int J Number Method Eng. 73:1413–1433.
  • Holzapfel GA, Gasser TC, Ogden RW. 2000. A new constitutive framework for anterial wall mechanics and a comparative study of material models. J Elast. 61:1–48.
  • Hunter PJ, Borg TK. 2003. Integration from proteins to organs: the physiome project. Nat Rev Mol Cell Biol. 4:237–243.
  • Javierre E, Moreno P, Doblare M, Garcia-Aznar JM. 2009. Numerical modeling of a mechano-chemical theory for wound contraction analysis. Int J Solid Struct. 46:3597–3606.
  • Javierre E, Vermolen FJ, Vuik C, Zwaag S. 2009. A mathematical analysis of physiological and morphological aspects of wound closure. J Math Biol. 59:605–630.
  • Jor JWY, Nash MP, Nielsen PMF, Hunter PJ. 2011. Estimating material parameters of a structurally based constitutive relation for skin mechanics. Biomech Model Mechanobiol. 10:767–778.
  • Kitano H. 2002. Computational systems biology. Nature. 420:206–210.
  • Kuhl E, Holzapfel GA. 2007. A continuum model for remodeling in living structures. J Mater Sci. 42:8811–8823.
  • Kuhl E, Steinmann P. 2004. Computational modeling of healing: an application of the material force method. Biomech Model Mechanobiol. 2:187–203.
  • Lanir Y. 1983. Constitutive equations for fibrous connective tissues. J Biomech. 16:1–12.
  • Laurent GJ. 1987. Dynamic state of collagen: pathways of collagen degradation in vivo and their possible role in regulation of collagen mass. Am J Physiol Cell Physiol. 252:1–9.
  • Limbert G, Simms C. 2013. Special issue on skin mechanobiology. J Mech Behav Biomed Mater. 28:395–396.
  • Maini PK, McElwain DL, Leavesley DI. 2004. Traveling wave model to interpret a wound-healing cell migration assay for human peritoneal mesothelial cells. Tissue Eng. 10:475–482.
  • Martin P. 1997. Wound healing-aiming for perfect skin regeneration. Science. 276:75–81.
  • McDougall S, Dallon J, Sherratt J, Maini P. 2006. Fibroblast migration and collagen deposition during dermal wound healing: mathematical modelling and clinical implications. Philos Trans A Math Phys Eng Sci. 364:1385–1405.
  • Menzel A. 2007. A fibre reorientation model for orthotropic multiplicative growth. Biomech Model Mechanobiol. 6:303–320.
  • Menzel A, Kuhl E. 2012. Frontiers in growth and remodeling. Mech Res Commun. 42:1–14.
  • Mergheim J, Steinmann P. 2013. Phenomenological modelling of self-healing polymers based on integrated healing agents. Comput Mech. 52:681–892.
  • Mi Q, Riviere B, Clermont G, Steed DL, Vodovotz Y. 2007. Agent-based model of inflammation and wound healing: insights into diabetic foot ulcer pathology and the role of transforming growth factor-beta1. Wound Repair Regen. 15:671–682.
  • Mutsaers SE, Bishop JE, McGrouther G, Laurent GJ. 1997. Mechanisms of tissue repair: from wound healing to fibrosis. Int J Biochem Cell Biol. 29:5–17.
  • Olsen L, Sherratt JA, Maini P. 1995. A mechanochemical model for adult dermal wound contraction: on the permanence of the contracted tissue displacement profile. J Theor Biol. 177:113–128.
  • Olutoye OO, Zhu X, Cass DL, Smith CW. 2005. Neutrophil recruitment by fetal porcine endothelial cells: implications in scarless fetal wound healing. Pediatr Res. 58:1290–1294.
  • Paterno J, Vial IN, Wong VW, Rustad KC, Sorkin M, Shi Y, Bhatt KA, Thangarajah H, Glotzbach JP, Gurtner GC. 2011. Akt-mediated mechanotransduction in murine fibroblasts during hypertrophic scar formation. Wound Repair Regen. 19:49–58.
  • Pettet GJ, Byrne HM, McElwain DL, Norbury J. 1996. A model of wound-healing angiogenesis in soft tissue. Math Biosci. 136:35–63.
  • Qutub AA, Mac Gabhann F, Karagiannis ED, Vempati P, Popel AS. 2009. Multiscale models of angiogenesis. IEEE Eng Med Biol Mag. 28:14–31.
  • Rausch MK, Kuhl E. 2013. On the effect of prestrain and residual stress in thin biological membranes. J Mech Phys Solids. 61:1955–1969.
  • Rouillard AD, Holmes JW. 2012. Mechanical regulation of fibroblast migration and collagen remodeling in healing myocardial infarcts. J Phyisol. 590:4585–4602.
  • Roy S, Biswas S, Khanna S, Gordillo G, Bergdall V, Green J, Marsh CB, Gould LJ, Sen CK. 2009. Characterization of a preclinical model of chronic ischemic wound. Physiol Genomics. 37:211–224.
  • Saez P, Pena E, Martinez MA, Kuhl E. 2013. Mathematical modeling of collagen turnover in biological tissue. J Math Biol. 67:1765–1793.
  • Saez P, Pena E, Martinez MA, Kuhl E. 2014. Computational modeling of hypertensive growth in the human carotid artery. Comput Mech. 53:1183–1196.
  • Schugart RC, Friedman A, Zhao R, Sen CK. 2008. Wound angiogenesis as a function of tissue oxygen tension: a mathematical model. Proc Nat Acad Sci. 105:2628–2633.
  • Sherratt JA, Murray JD. 1990. Models of epidermal wound healing. Proc R Soc B Bio Sci. 241:29–36.
  • Simpson CL, Patel DM, Green KJ. 2011. Deconstructing the skin: cytoarchitectural determinants of epidermal morphogenesis. Nat Rev Mol Cell Biol. 12:565–580.
  • Southern J, Pitt-Francis J, Whiteley J, Stokeley D, Kobashi H, Nobes R, Kadooka Y, Gavaghan D. 2008. Multi-scale computational modelling in biology and physiology. Prog Biophys Mol Biol. 96:60–89.
  • Sun T, Adra S, Smallwood R, Holcombe M, MacNeil S. 2009. Exploring hypotheses of the actions of TGF-beta1 in epidermal wound healing using a 3D computational multiscale model of the human epidermis. PLoS ONE. 4:e8515.
  • Tranquillo RT. 1987. Stochastic model of leukocyte chemosensory movement. J Math Biol. 25:229–262.
  • Tranquillo R, Murray J. 1992. Continuum model of fibroblast-driven wound contraction–inflammation-mediation. J Theor Biol. 158(1992):135–172.
  • Tranquillo RT, Murray JD. 2007. Continuum model of fibroblast-driven wound contraction: inflammation-mediation. Biomech Model Mechanobiol. 158:361–371.
  • Velnar T, Bailey T, Smrkolj V. 2009. The wound healing process: an overview of the cellular and molecular mechanisms. J Int Med Res. 37:1528–1542.
  • Verhaegen PDHM, van Zuijlen PPM, Pennings NM, van Marle J, Niessen FB, van der Horst CMAM, Middelkoop E. 2009. Differences in collagen architecture between keloid, hypertrophic scar, normotrophic scar, and normal skin: an objective histopathological analysis. Wound Repair Regen. 17:649–656.
  • Vermolen FJ, Javierre E. 2012. A finite-element model for healing of cutaneous wounds combining contraction, angiogenesis and closure. J Math Biol. 65:967–996.
  • Vodovotz Y. 2010. Translational systems biology of inflammation and healing. Wound Repair Regen. 18:3–7.
  • Vodovotz Y, Csete M, Bartels J, Chang S, An G. 2008. Translational systems biology of inflammation. PLoS Comput Biol. 4:e1000014.
  • Werner S, Grose R. 2003. Regulation of wound healing by growth factors and cytokines. Physiol Rev. 83:835–870.
  • Wong VW, Akaishi S, Longaker MT, Gurtner GC. 2011. Pushing back: wound mechanotransduction in repair and regeneration. J Invest Dermatol. 131:2186–2196.
  • Wong VW, Levi K, Akaishi S, Schultz G, Dauskardt RH. 2012. Scar zones: region specific differences in skin tension may determine incisional scar formation. Plast Reconstr Surg. 129:1272–1276.
  • Wyczalkowski MA, Varner VD, Taber LA. 2013. Computational and experimental study of the mechanics of embryonic wound healing. J Mech Behav Biomed Mater. 28:125–146.
  • Xue C, Friedman A, Sen CK. 2009. A mathematical model of ischemic cutaneous wounds. Proc Natl Acad Sci. 106:16782–16787.
  • Zöllner AM, Buganza Tepole A, Gosain AK, Kuhl E. 2012. Growing skin: tissue expansion in pediatric forehead reconstruction. Biomech Model Mechanobiol. 11:855–867.
  • Zöllner AM, Buganza Tepole A, Kuhl E. 2012. On the biomechanics and mechanobiology of growing skin. J Theor Biol. 297:166–175.
  • Zöllner AM, Holland MA, Honda KS, Gosain AK, Kuhl E. 2013. Growth on demand: reviewing the mechanobiology of stretched skin. J Mech Behav Biomed Mater. 28:495–509.

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