Affiliations: Biofluidmechanics Laboratory, Humboldt University Berlin, Germany | Pathology Department, Dr. Finlay Hospital, Havana, Cuba
Note: [] Address for correspondence: Dr.‐Ing. Leonid Goubergrits, Biofluidmechanics Laboratory, Humboldt University Berlin, Spandauer Damm 130, 14050 Berlin, Germany. Fax: +49 30 450553938; E‐mail: leonid.goubergrits@charite.de.
Abstract: The influence of blood flow on the depositions and development of atherosclerotic lesions have been observed and described since the 19th century. Observations have shown that depositions correlate with regions of low wall shear stress. However, the exact correlations between depositions, vessel geometry and flow parameters are not yet known. The purpose of this study was the quantification of atherosclerosis risk factors in carotid bifurcation. This artery has attracted particular interest because lesions are often found in this bifurcation. Post mortem, the arteries are excised and vessel casts are produced. Afterwards, the arteries are analyzed morphometrically. The vessel casts are used for the assessment of some geometrical parameters. 31 carotid bifurcations were analyzed in this study. Eight vessel casts were digitized and rendered three‐dimensional mathematical models of the arteries. These data were imported by the computational fluid dynamics program FLUENT. Further, the blood flow was reconstructed in a computer model based on the individual vessel geometry. The flow parameters, such as velocity, pressure and wall shear stress were computed. At the same time the geometrical parameters and wall alterations are known. This permits the comparison of the anatomical shape and its flow with the distribution and level of the wall alterations.
