• DocumentCode
    3446036
  • Title

    Investigation of flow in the models of intracranial lateral aneurysms by particle image velocimetry

  • Author

    Danturthi, Ramalinga S. ; Partridge, Lloyd D. ; Turitto, Vincent T.

  • Author_Institution
    Dept. of Biomed., Memphis State Univ., TN, USA
  • fYear
    1997
  • fDate
    4-6 Apr 1997
  • Firstpage
    437
  • Lastpage
    440
  • Abstract
    Cranial aneurysms are known to cause cerebral hematoma or hemorrhage by rupture. Hemodynamic forces can significantly contribute to the rupture of an aneurysm and measurements of flow velocities in the vicinity of an aneurysm may help predict the causes of an aneurysmal rupture. The authors developed a 2-D particle image velocimetry system to find the velocities in-vitro in glass models of lateral aneurysms. Seven models of different shape and ostium widths were tested in the experiments. Reynolds numbers of 100, 400 and 700 were considered in order to characterize the flow of blood in cranial arteries. Results suggest that rupture in the dome area is possible due to the high shear values and (or) the impact of the flowing blood on the walls of aneurysma. Results also indicate that ostium widths, the presence of a neck and the shape of the aneurysm play an important role in directing the fluid into the aneurysmal area
  • Keywords
    blood flow measurement; brain; fracture; laser applications in medicine; laser velocimetry; medical image processing; 2-D particle image velocimetry system; Reynolds number; aneurysmal area; cerebral hematoma; cranial arteries; glass models; hemodynamic forces; hemorrhage; intracranial lateral aneurysms models; medical diagnostic imaging; ostium width; Aneurysm; Blood; Cranial; Force measurement; Glass; Hemodynamics; Hemorrhaging; In vitro; Shape; Velocity measurement;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Biomedical Engineering Conference, 1997., Proceedings of the 1997 Sixteenth Southern
  • Conference_Location
    Biloxi, MS
  • ISSN
    1086-4105
  • Print_ISBN
    0-7803-3869-3
  • Type

    conf

  • DOI
    10.1109/SBEC.1997.583338
  • Filename
    583338