Effects of mechanical properties and atherosclerotic artery size on biomechanical plaque disruption - Mouse vs. human

Laurent M. Riou, Alexis Broisat, Catherine Ghezzi, Gérard Finet, Gilles Rioufol, Ahmed M. Gharib, Roderic I. Pettigrew, Jacques Ohayon

Research output: Contribution to journalArticlepeer-review

7 Scopus citations

Abstract

Mouse models of atherosclerosis are extensively being used to study the mechanisms of atherosclerotic plaque development and the results are frequently extrapolated to humans. However, major differences have been described between murine and human atherosclerotic lesions and the determination of similarities and differences between these species has been largely addressed recently. This study takes over and extends previous studies performed by our group and related to the biomechanical characterization of both mouse and human atherosclerotic lesions. Its main objective was to determine the distribution and amplitude of mechanical stresses including peak cap stress (PCS) in aortic vessels from atherosclerotic apoE-/- mice, in order to evaluate whether such biomechanical data would be in accordance with the previously suggested lack of plaque rupture in this model. Successful finite element analysis was performed from the zero-stress configuration of aortic arch sections and mainly indicated (1) the modest role of atherosclerotic lesions in the observed increase in residual parietal stresses in apoE-/- mouse vessels and (2) the low amplitude of murine PCS as compared to humans. Overall, the results from the present study support the hypothesis that murine biomechanical properties and artery size confer less propensity to rupture for mouse lesions in comparison with those of humans.

Original languageEnglish (US)
Pages (from-to)765-772
Number of pages8
JournalJournal of Biomechanics
Volume47
Issue number4
DOIs
StatePublished - Mar 3 2014

Keywords

  • Artery size
  • Human
  • Mechanical properties
  • Mouse
  • Plaque disruption

ASJC Scopus subject areas

  • Biophysics
  • Biomedical Engineering
  • Orthopedics and Sports Medicine
  • Rehabilitation

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