Title :
Computer-optimization of vascular trees
Author :
Schreiner, W. ; Buxbaum, P.F.
Author_Institution :
Vienna Univ., Austria
fDate :
5/1/1993 12:00:00 AM
Abstract :
Arterial branchings closely fulfil several bifurcation rules which are deemed to optimize blood flow. The question is whether these local criteria in conjunction with a general optimization principle can explain the overall structure of an arterial tree. The authors present a model of an arterial vascular tree which is grown on the computer by successively adding terminal vessel segments. Each new terminal segment is connected to the optimum site within the preexisting tree, and the new bifurcation is optimized geometrically. After each step of adding and optimizing, the whole tree is rescaled to meet invariant boundary conditions of pressure and flow at each terminal site. Thus, local geometric optimization is used to induce simultaneously an optimized global structure. The comparison between the model and real coronary arterial trees shows good agreement regarding structural appearance, morphometric parameters, and pressure profiles.<>
Keywords :
biology computing; optimisation; physiological models; arterial branchings; bifurcation rules; blood flow optimization; computer optimization; invariant boundary conditions; local geometric optimization; morphometric parameters; pressure profiles; structural appearance; vascular trees; Bifurcation; Blood flow; Boundary conditions; Arteries; Blood Flow Velocity; Blood Pressure; Computer Simulation; Coronary Vessels; Evaluation Studies as Topic; Humans; Mathematics; Models, Cardiovascular; Vascular Resistance;
Journal_Title :
Biomedical Engineering, IEEE Transactions on
