• Title of article

    Local mechanical and structural properties of healthy and diseased human ascending aorta tissue

  • Author/Authors

    Choudhury، نويسنده , , Nusrat and Bouchot، نويسنده , , Olivier and Rouleau، نويسنده , , Leonie and Tremblay، نويسنده , , Dominique and Cartier، نويسنده , , Raymond and Butany، نويسنده , , Jagdish and Mongrain، نويسنده , , Rosaire and Leask، نويسنده , , Richard L.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    9
  • From page
    83
  • To page
    91
  • Abstract
    Objective tudy investigates the mechanics and histology of healthy and dilated human ascending aortas (AA). The regional variation in mechanical response and tissue structure were compared. s of human AA from healthy (n=5), dilated tricuspid aortic valve (TAV, n=5), and dilated bicuspid aortic valve (BAV, n=6) patients were mechanically tested. Each aortic ring was sectioned into quadrants—anterior, posterior, medial (inner curvature) and lateral (outer curvature). Low- and high-stress elastic moduli were calculated from the equibiaxial stress strain curve to determine the local mechanical properties. Histological analysis was used to quantify the percent composition of elastin, collagen, and smooth muscle cells. s ssue was thinnest and contained the largest percent composition of collagen. Both TAV and BAV tissue had significantly less elastin than healthy tissue. At low strain in the circumferential direction, TAV tissue was on average the least stiff. The elastic modulus was dependent on quadrant and tissue type but not direction (isotropic). Generally, the lateral quadrant tissue was the stiffest and the medial quadrant the least stiff. There were no apparent local variations in the tissue histology. sions variations in tissue thickness and mechanical properties were evident in all samples analyzed and may be linked to the type of aortic valve present.
  • Keywords
    Hemodynamics , Elastic modulus , Aorta , Bicuspid , mechanics
  • Journal title
    Cardiovascular Pathology
  • Serial Year
    2009
  • Journal title
    Cardiovascular Pathology
  • Record number

    1845448