Td. Tang et al., Comparison of pulmonary arterial flow phenomena in spiral and Lecompte models by computational fluid dynamics, J THOR SURG, 122(3), 2001, pp. 529-534
Citations number
24
Categorie Soggetti
Cardiovascular & Respiratory Systems","Cardiovascular & Hematology Research
Objectives: The transposed great arteries are simply reversed by means of a
conventional arterial switch operation with the Lecompte maneuver without
resumption of their spiral relationship. We seek to clarify the functional
implications of the spiral relationship of the great arteries by means of m
athematic modeling.
Methods: Computational fluid dynamics is used to compare flow phenomena of
the spiral and Lecompte (nonspiral) models under various body surface areas
.
Results: The velocity profile and wall-shear stress distribution are more u
niform for the spiral than for the Lecompte model. The pressure drop and po
wer loss ratio are smaller for the spiral than the Lecompte model for all t
he body surface areas investigated. The power loss ratio increases abruptly
starting from 0.43 m(2) of body surface area for the Lecompte model. At th
at specific stage, after arterial switch operation with the Lecompte maneuv
er, suprapulmonary stenoses occur most frequently.
Conclusions: Reconstructing the great arteries in spiral fashion might be r
ecommended because the blood flow patterns are more streamlined than those
of the Lecompte maneuver. Initiation of stenosis might be minimized to some
extent.