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Tribologia biołożysk i inteligentnych bioreaktorów tematem grantu europejskiego

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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
EN
Tribology of biobearings and intelligent bioreactors as the topic of EU-grant
Języki publikacji
PL
Abstrakty
PL
Autor przedstawia zarys głównych celi badawczych podjętych w unijnym projekcie badawczym zatwierdzonym przez Komisję Europejską do realizacji w latach 2005-2008. Badania teoretyczne, numeryczne i eksperymentalne dotyczyć będą smarowania stawów nienewtonowskimi cieczami synowialnymi w warunkach nieustalonych z uwzględnieniem deformacji chrząstki stawowej w opisie stochastycznym. Ponadto rozpatrywany będzie problem hodowli chrząstki stawowej w bioreaktorze z uwzględnieniem możliwości sterowania siłami tarcia.
EN
Taking into account the increasing need to artificial joints for in-vitro use, this paper presents a layout of a challenge leading to detail analyzing of regeneration problems of articular joint and gives a step-by-step plan for designing a novel intelligent artificial joint. This paper has been prepared based on the objective of European Project MTKD-CT-2004-517226 to represent the methodology and goal of the idea described in and make possible wider discussion on this subject for further developments during the realization. Gdansk University of Technology, as the coordinator, in cooperation with other European universities: Graz University of Technology, Clinic for Orthopaedics and Sportorthopaedics of the Tech. University Munich, University of Applied Sciences in Giessen-Friedberg, Institute for Fluid Mechanics in University of Karlsruhe and Central Institute for Biomedical Engineering in University of Ulm submitted a ToK proposal to the European Commission on May 2004 which was entitled "Bio and Slide Bearings, their Lubrication by Non-Newtonian Oils and Application in Non-Conventional Systems". The proposal was submitted under Sixth Framework Programme, with Call Identifier: FP6-2003-No.517226, and finally is accepted as the Contract MTKD-CT-2004-517226. The proposal after negotiation is confirmed to financing from 2005 to 2008 due to high level marks for scientific, technological, socio-economic and European impact issues, as well as management aspects. The World Health Organization (WHO) has declared the present decade the bone and joint decade. In 1988 in USA the estimated total cost of osteoarthrosis was $54.6 billion. Annually in Germany more than 30 million medical treatments and more than 50 million days of temporary or permanent disablement, are due to the diseases of cartilage and bone. It is not surprising that the number of human joint diseases shows an exponential increase over the last years in Europe. In last ten years in European Union the number of bone fractures caused by the osteoarthritis increased twofold. More than 100000 total hip or knee joints are implanted during one year in Germany. Within ten years 5% of them fail by aseptic loosening. It can be estimated that yearly 2.5 million joint fractures occur worldwide. Only in 2000 in EU 414000 joint fractures was recorded. The increase in number of joint fractures in EU, anticipated on the ground of demographic development in the next 50 years, would reach about one million.
Czasopismo
Rocznik
Tom
Strony
67--80
Opis fizyczny
Bibliogr. 15 poz., rys., tab.
Twórcy
  • Tech. Univ. Gdańsk, Faculty of Ocean Eng. & Ship Tech., Narutowicza 11 PL-80952 Gdańsk
Bibliografia
  • 1. Buckwalter J.A., James Martin: Degenerative Joint Diseases, Clinical Symposia, CIBA Vol. 47, Nr 2,1995, pp. 3-15.
  • 2. Burais N., Baraton P., Gaspard J.Y.: Numerical modelisation of induce currents in human body by electromagnetic apparatus in medium frequency range CEM, 98, 8-11 June 1998, Brest, France.
  • 3. Chun-Yuh Huang, Soltz Michael A., Kopacz Monika, Mow Van C., Ateshian Gerard A.: Experimental Verification of the Roles of Intrinsic Matrix Viscoelasticity and Tension-Compression Nonlinearity in the Biphasic Response of Cartilage, Trans. of ASME Vol. 125, February 2003 p. 84.
  • 4. Fyhrie D.P., Barone J.R.: Polymer Dynamics as a Mechanistic Model for the Flow-Independent Viscoelasticity of Cartilage, Trans. of the ASME Vol. 125 october 2003, pp. 578-584.
  • 5. Gabriel S., Lau R.W., Gabriel C.: The dielectric properties of biological tissues: III.Parametric models for the dielectric spectrum of tissues, Phys, Med.Biol., Vol. 41, 1996, pp. 2271-93.
  • 6. Garcia J.J., Altiero N.J., Haut R.C., Estimation of in Situ Elastic Properties of Biophasic Cartilage Based on a Transversely Isotropic Hypo-Elastic Model, Journal of Biomechanical Engineering, vol. 122, February 2000, pp. 1-8.
  • 7. Suciu A.N., Iwatsubo T., Matsuda M.: Theoretical Investigation o fan Artificial Joint With Micro-Pocket-Covered Component and Biphasic Cartilage on the Opposite Articulating Surface, Journal of Biomechanical Engineering, August 2003, Vol. 125, pp. 425-433 .
  • 8. Maurel W., Wu Y., Thalmann D.(1998) Biomechanical Modells for Soft Tissue Simulation, Springer Verlag Berlin/Heidelberg.
  • 9. Prochotta J.: Pulsierende Magnetfeldtheraspie. Spiegel der Forschung, Wissenschafts-magazin, Uni-Giessen Nr 1, Juni 2001, 32-34.
  • 10. Raimondi M.T., Boschetti F., Falcone L., Fiore G.B., Remuzzi A., Marinonni E., Marazzi M., Pietrabissa R. Mechanobiology of engineered cartilage cultured under a quantified fluid-dynamic environment. Biomechanics and Modeling in Mechanobiology, 2002, 1, 69-82.
  • 11. Trzeciak T., Kruczyński J., Lubiatowski P., Piontek T., Jaroszewski J., The reconstruction of defects in articular cartilage using analogous chondrocytes. Ortopedia Traumatologia Rehabilitacja, Vol. 3, Nr 2, 2001, 200-204.
  • 12. Wierzcholski Krzysztof: Theory of viscoelastic lubrication of hip joint in stochastic description for periodic motion. Tribologia, 2004, 4(196), pp. 327-338.
  • 13. Winslow W.M. Induced Vibration of Suspensions. Journal of Applied Physics, XII, 1949, vol. 20, nr 12, pp. 1137-1140.
  • 14. Woo S.-Y., Johnson G.A., Smith B.A. Mathematical Modeling of Ligaments and Tendons Journal Biomechanical Engineering 115, 468-473, 1993.
  • 15. Xiao H., Bruhns O. T., Meyers A., Hypo-elasticity model based upon the logarithmic stress rate, J. Elast., 47, 1997, pp. 51-68.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPS1-0020-0045
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