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  • Investigation of principles of mechanotransduction in living animal cells creates a basis for understanding processes in cardio-vascular system such as tissue remodelation, atherosclerotic changes, growth of aneurysms, etc. To be able to estimate the biochemical response of the cell or tissue on a mechanical load, we need to determinate the very quantity (or set of quantities) that is responsible for this response. As cell is a complex structure with numerous components, it cannot be expected that this quantity will be found on the base of homogeneous continuum models. Therefore more complex (structural) finite element models of the mechanical behaviour of cells are needed. A new more realistic model of cytoskeleton has been created. The model should be able to simulate various mechanical tests of isolated cells. In future various types of tests carried out with the same type of cells (vascular smooth muscle cells) should be simulated with the aim to identify constitutive parameters of the individual
  • Investigation of principles of mechanotransduction in living animal cells creates a basis for understanding processes in cardio-vascular system such as tissue remodelation, atherosclerotic changes, growth of aneurysms, etc. To be able to estimate the biochemical response of the cell or tissue on a mechanical load, we need to determinate the very quantity (or set of quantities) that is responsible for this response. As cell is a complex structure with numerous components, it cannot be expected that this quantity will be found on the base of homogeneous continuum models. Therefore more complex (structural) finite element models of the mechanical behaviour of cells are needed. A new more realistic model of cytoskeleton has been created. The model should be able to simulate various mechanical tests of isolated cells. In future various types of tests carried out with the same type of cells (vascular smooth muscle cells) should be simulated with the aim to identify constitutive parameters of the individual (en)
Title
  • TENSEGRITY STRUCTURES AND THEIR APPLICATION IN MODELS OF CYTOSKELETON
  • TENSEGRITY STRUCTURES AND THEIR APPLICATION IN MODELS OF CYTOSKELETON (en)
skos:prefLabel
  • TENSEGRITY STRUCTURES AND THEIR APPLICATION IN MODELS OF CYTOSKELETON
  • TENSEGRITY STRUCTURES AND THEIR APPLICATION IN MODELS OF CYTOSKELETON (en)
skos:notation
  • RIV/00216305:26210/06:PU63179!RIV11-MSM-26210___
http://linked.open...avai/riv/aktivita
http://linked.open...avai/riv/aktivity
  • N, V, Z(MSM 262100001)
http://linked.open...vai/riv/dodaniDat
http://linked.open...aciTvurceVysledku
http://linked.open.../riv/druhVysledku
http://linked.open...iv/duvernostUdaju
http://linked.open...titaPredkladatele
http://linked.open...dnocenehoVysledku
  • 503339
http://linked.open...ai/riv/idVysledku
  • RIV/00216305:26210/06:PU63179
http://linked.open...riv/jazykVysledku
http://linked.open.../riv/klicovaSlova
  • Keywords: Tensegrity, cytoskeleton, mechanotransduction, finite element model (en)
http://linked.open.../riv/klicoveSlovo
http://linked.open...ontrolniKodProRIV
  • [C594036E9E5B]
http://linked.open...v/mistoKonaniAkce
  • Hrotovice
http://linked.open...i/riv/mistoVydani
  • Hrotovice
http://linked.open...i/riv/nazevZdroje
  • Human Biomechanics 2006
http://linked.open...in/vavai/riv/obor
http://linked.open...ichTvurcuVysledku
http://linked.open...cetTvurcuVysledku
http://linked.open...UplatneniVysledku
http://linked.open...iv/tvurceVysledku
  • Burša, Jiří
http://linked.open...vavai/riv/typAkce
http://linked.open.../riv/zahajeniAkce
http://linked.open...n/vavai/riv/zamer
number of pages
http://purl.org/ne...btex#hasPublisher
  • Vysoké učení technické v Brně. Fakulta strojního inženýrství. Ústav mechaniky těles, mechatroniky a biomechaniky
https://schema.org/isbn
  • 80-214-3232-2
http://localhost/t...ganizacniJednotka
  • 26210
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