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Organogenesis Volume 6, 2010 - Issue 4
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Review: Engineering toward functional tissues and organs

An in silico future for the engineering of functional tissues and organs

Vanessa Díaz-Zuccarini University College London; London, UKCorrespondence[email protected]
&
Pat V. Lawford University of Sheffield; Sheffield, UK
Pages 245-251 | Published online: 01 Oct 2010

References

  • Langer R, Vacanti JP. Tissue engineering. Science 1993; 260:920 - 926
  • Lysaght MJ, Reyes J. The growth of tissue engineering. Tissue Eng 2001; 7:485 - 493
  • Griffith LG, Naughton G. Tissue engineering—Current challenges and expanding opportunities. Science 2002; 295:1009 - 1014
  • Ikada Y. Challenges in tissue engineering. J Roy Soc Interface 2006; 3:589 - 601
  • Levenberg S, Langer R. Schatten GP. Advances in tissue engineering. Current Topics in Developmental Biology 2004; 16:San Diego Elsevier Academic 113 - 134
  • Keener J, Sneyd J. Marsden JE, Sirovich S, Wiggins S. Preface. Mathematical Physiology 1998; First edition New York Springer-Verlag 5 - 8
  • Holden AV, Panfilov AV. Panfilov AV, Holden AV. Modeling propagation in excitable media. Computational Biology of the Heart 1996; Chichester Wiley & Sons 65 - 99
  • Noble D. Systems biology and the heart. Biosystems 2006; 83:2 - 3
  • Hunter P, Smith N, Fernandez J, Tawhai M. Integration from proteins to organs: the IUPS Physiome Project. Mech Ageing Dev 2005; 126:187 - 192
  • Fenner JW, Brook B, Clapworthy G, Coveney PV, Feipel V, Gregersen H, et al. The EuroPhysiome, STEP and a roadmap for the virtual physiological human. Philos Transact A Math Phys Eng Sci 2008; 366:2979 - 2999
  • Aneurist http://www.aneurist.org
  • euHeart http://www.euheart.eu
  • Díaz-Zuccarini V, Narracott AJ, Burriesci G, Zervides C, Rafiroiu D, Jones D, et al. Adaptation and development of software simulation methodologies for cardiovascular engineering: present and future challenges from an end-user perspective. Philos Transact A Math Phys Eng Sci 2009; 367:2655 - 2666
  • Murphy WL, Dennis RG, Kileny JL, Mooney DJ. Salt fusion: an approach to improve pore interconnectivity within tissue engineering scaffolds. Tissue Eng 2002; 8:43 - 52
  • Barry JJ, Gidda HS, Scotchford CA, Howdle SM. Porous methacrylate scaffolds: supercritical fluid fabrication and in vitro chondrocyte responses. Biomat 2004; 25:3559 - 3568
  • Nair LS, Bhattacharya S, Laurencin CT. Development of novel tissue engineering scaffolds via electro-spinning. Expert Opin Biol Ther 2004; 4:659 - 668
  • Rahaman MN, Mao JJ. Stem cell-based composite tissue constructs for regenerative medicine. Biotechnol Bioeng 2005; 91:261 - 284
  • Mauney JR, Volloch V, Kaplan DL. Role of adult mesenchymal stem cells in bone tissue-engineering applications: current status and future prospects. Tissue Eng 2005; 11:787 - 802
  • Cohen S, Leshanski L, Itskovitz-Eldor J. Tissue engineering using human embryonic stem cells. Methods Enzymol 2006; 420:303 - 315
  • Bishop AE, Buttery LDK, Polak JM. Embryonic stem cells. J Pathol 2002; 197:424 - 429
  • Malda J, Martens DE, Tramper J, van Blitterswijk CA, Riesle J. Cartilage tissue engineering: controversy in the effect of oxygen. Crit Rev Biotechnol 2003; 23:175 - 194
  • Lemon G, Howard D, Tomlinson MJ, Buttery LD, Rose F, Waters SL, et al. Mathematical modeling of tissue-engineered angiogenesis. Math Biosci 2009; 221:101 - 120
  • Mooney DJ, Mikos AG. Growing new organs. Scientific Am 1999; 280:60 - 65
  • Ko H, Milthorpe B, McFarland C. Engineering thick tissues—the vascularisation problem. Eur Cells Mat 2007; 14:1 - 19
  • Cassell JC, Hofer SO, Morrison WA, Knight KR. Vascularisation of tissue-engineered grafts: the regulation of angiogenesis in reconstructive surgery and in disease states. Br J Plast Surg 2002; 55:603 - 610
  • Eiselt P, Kim BS, Chacko B, Isenberg B, Peters MC, Greene KG, et al. Development of technologies aiding large-tissue engineering. Biotechnol Prog 1998; 14:134 - 140
  • Nerem RM, Alexander RW, Chappell DC, Medford RM, Varner SE, Taylor WR. The study of the influence of flow on vascular endothelial biology. Am J Med Sci 1998; 316:169 - 175
  • Nguyen LL, D'Amore PA. Cellular interactions in vascular growth and differentiation. Int Rev Cytol 2001; 204:1 - 48
  • Nguyen M, Arkell J, Jackson CJ. Human endothelial gelatinases and angiogenesis. Int J Biochem Cell Biol 2001; 33:960 - 970
  • Auerbach R, Auerbach W. Fan TPD, Kohn EC. Vasculogenesis and angiogenesis. The New Angiotherapy 2002; Totowa NJ Humana Press 1 - 6
  • Pancrazio JJ, Wang F, Kelley CA. Enabling tools for tissue engineering. Biosens Bioelectron 2007; 22:2803 - 2811
  • Nikolaev NI, Obradovic B, Versteeg HK, Lemon G, Williams DJ. A Validated model of GAG deposition, cell distribution and growth of tissue engineered cartilage cultured in a rotating bioreactor. Biotechnol Bioeng 2010; 105:842 - 853
  • Lovett M, Lee K, Edwards A, Kaplan DL. Vascularisation Strategies for Tissue Engineering. Tissue Eng Part B Rev 2009; 15:353 - 370
  • Sucosky P, Osorio DF, Brown JB, Neitzel GP. Fluid mechanics of a spinner-flask bioreactor. Biotechnol Bioeng 2004; 85:34 - 46
  • Hutmache DW, Singh H. Computational fluid dynamics for improved bioreactor design and 3D culture. Trends Biotechnol 2008; 26:166 - 172
  • Dusting J, Sheridan J, Hourigan K. A fluid dynamics approach to bioreactor design for cell and tissue culture. Biotechn and Bioeng 2006; 94:1196 - 1208
  • Dvir T, Benisti N, Shachar M, Cohen S. A novel perfusion bioreactor providing a homogeneous milieu for tissue regeneration. Tissue Eng 2006; 12:2843 - 2852
  • Freed LE, Hollander AP, Martin I, Barry JR, Langer R, Vunjak-Novakovic G. Chondrogenesis in a cell-polymer-bioreactor system. Exp Cell Res 1998; 240:58 - 65
  • Williams KA, Saini S, Wick TM. Computational fluid dynamics modeling of steady state momentum and mass transport in a bioreactor for cartilage tissue engineering. Biotechnol Prog 2002; 18:951 - 963
  • Wang N, Tytell JD, Ingber DE. Mechano-transduction at a distance: mechanically coupling the extracellular martrix with the nucleus. Nat Rev Mol Cell Biol 2009; 10:75 - 82
  • Janmey PA, McCulloch CA. Cell mechanics: Integrating cell responses to mechanical stimuli. Annu Rev Biomed Eng 2007; 9:1 - 34
  • Karcher H, Lammerding J, Huang H, Lee RT, Kamm RD, Kaazempur_Mofrad MR. A three-dimensional viscoelastic model for cell deformation with experimental verification. Biophys J 2003; 85:3336 - 3349
  • Porter B, Zauel R, Stockman H, Goldberg R, Fyhrie D. 3-D computational modeling of media flow through scaffolds in a perfusion bioreactor. J Biomech 2005; 38:543 - 549
  • Raimondi MT, Boschetti F, Falcone L, Fiore GB, Remuzzi A, Marinoni M, et al. Mechanobiology of engineered cartilage cultured under a quantified fluid-dynamic environment. Biomechan Model Mechanobiol 2002; 1:69 - 82
  • Jeays AD, Lawford PV, Gillott R, Spencer P, Barber DC, Bardhan KD, et al. Characterisation of the haemodynamics of the superior mesenteric artery. J Biomech 2007; 40:1916 - 1926
  • Reeve S, Lawford P, Abbitt K, Hose D. A novel technique for investigating properties of ULVWF-platelet complexes. J Biomech 2008; 41:182
  • Lacroix DE, Planell JA, Prendergast PJ. Computer-aided design and finite element modeling of biomaterial scaffolds for bone tissue engineering. Philos Transact A Math Phys Eng Sci 2009; 367:1993 - 2009
  • Porter B, Zauel R, Stockman H, Guldberg RE, Fyhrie D. 3D Computational modeling of media flow through scaffolds in a perfusion bioreactor. J Biomech 2005; 38:543 - 549
  • Jaecques SVN, Van Oosterwyck H, Muraru L, Van Cleynenbreugel T, De Smet E, Wevers M, et al. Individualised, micro CT-based finite element modeling as a tool for biomechanical analysis related to tissue engineering of bone. Biomat 2004; 25:1683 - 1696
  • Breuls RGM, Sengers BG, Oomens CWJ, Bouten CVC, Baaijens FPT. Predicting local cell deformations in engineered tissue constructs: A multilevel finite element approach. J Biomech 2002; 124:1988 - 2002
  • Thorne BC, Bailey AM, Peirce SM. Combining experiments with multi-cell agent-based modeling to study biological tissue patterning. Briefings in Bioinformatics 2007; 8:245 - 257
  • Walker D, Wood S, Southgate J, Hill G, Holcombe M, Hose DR, et al. The epitheliome: Agent-based modeling of the behaviour of the social behaviour. Biosystems 2004; 76:89 - 100
  • Archer R, Williams DJ. Why tissue engineering needs process engineering. Nat Biotechnol 2005; 23:1353 - 1355
  • Butler DL, Hunter SA, Chokalingam K, Cordray MJ, Shearn J, Juncosa-Melvin N, et al. Using functional tissue engineering and bioreactors to mechanically stimulate tissue-engineered constructs. Tissue Eng Part A 2009; 15:741 - 749
  • Raimondi MT, Boschetti F, Falcone L, Migliavacca F, Remuzzi A, Dubini G. The effect of media perfuaion on 3-D cultures of human chondrocytes: Integration of experimental and computational approaches. Biorheol 2004; 41:401 - 410
  • Coast http://www.complex-automata.org
  • Evans DJW, Lawford PV, Gunn J, Walker D, Hose DR, Smallwood RH, et al. The Application of Multi-scale modeling to the process of development and prevention of stenosis in a stented coronary artery. Philos Transact A Math Phys Eng Sci 2008; 366:3343 - 3360

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