[Crib-list] COMPUTATIONAL RESEARCH in BOSTON SEMINAR -- Friday, 11/04/2005
Shirley Entzminger
daisymae at math.mit.edu
Fri Nov 4 09:47:56 EST 2005
T O D A Y...
COMPUTATIONAL RESEARCH IN BOSTON SEMINAR
DATE: FRIDAY, NOVEMBER 4, 2005
TIME: 12:30 PM
LOCATION: Building 32, Room 144 (Stata Center)
(Pizza and beverages will be provided.)
TOPIC: TRANSITIONAL FLOW IN STENOSED CAROTID ARTERY
SPEAKER: SEUNG E. LEE
Department of Mechanical Engineering
Massachusetts Institute of Technology
ABSTRACT:
Patients with severely stenotic arteries are at potential health risks such as
ischemia, heart attack, and stroke. However, the study of hemodynamics within
severe stenosis has been limited due to its complex flow nature. A number of
studies employed numerical and experimental tools to study the transitional
nature of the blood using simplifying assumptions (idealized geometries,
turbulence model, or 2D model), and significant insights have been gained from
them. Nevertheless, it is evidently clear from these reports that the use of
the patient-specific flow conditions and geometries are essential in order to
fully characterize the three-dimensional nature of the post-stenotic
transitional flow, which can possibly help evaluate the patient-specific
vulnerability from the determined flow pattern. In this paper, we report a
direct numerical simulation result of the transitional flow in
patient-specific-severely-stenosed carotid bifurcation using flow conditions
obtained directly from the patient as the boundary conditions. The Spectral
Element Method (SEM) software used for this study has been previously validated
through comparison with experimental results of transitional flows.
Two sites of high frequency vortex shedding were observed during the
deceleration phase of the systole. One vortex shedding was located downstream
of the stenosis, and the other was located right in the stenosis, which broke
off from the apex. The vortex shedding frequency was within the audible range,
which the physicians listen for in search of stenosis-induced turbulence in
their simple non-invasive diagnosis. The throat of the stenosis was subjected
to very high shear stress, which was suggested to cause plaque rupture or
platelet activation. Oscillatory flow reversal and low pressure were observed
just distal of the stenosis, which may fatigue the calcified plaque or cause
the formation of the thrombosis. This study provides a quantitative means of
characterizing the post-stenotic flow field, and may help elucidate the
mechanistic insights of plaque vulnerability.
Massachusetts Institute of Technology
Department of Mathematics
Cambridge, MA 02139
http://www-math.mit.edu/crib
For information on CRiB, contact:
Alan Edelman: edelman at math.mit.edu
Steven G. Johnson: stevenj at math.mit.edu
Jeremy Kepner: kepner at ll.mit.edu
More information about the CRiB-list
mailing list