DocumentCode
1207512
Title
Computational Patient-Specific Models Based on 3-D Ultrasound Data to Quantify Uterine Arterial Flow During Pregnancy
Author
Pennati, Giancarlo ; Socci, Laura ; Rigano, Serena ; Boito, Simona ; Ferrazzi, Enrico
Author_Institution
Dept. of Struct. Eng., Lab. of Biol. Struct., Milan
Volume
27
Issue
12
fYear
2008
Firstpage
1715
Lastpage
1722
Abstract
Information on uterine blood flow rate during pregnancy would widely improve our knowledge on feto-placental patho-physiology. Ultrasonographic flow rate evaluation requires the knowledge of the spatial velocity profiles throughout the investigated vessel; these data may be obtained from hemodynamic simulations with accurate computational models. Recently, computational models of superficial vessels have been created using 3-D ultrasound data; unfortunately, common reconstruction methods are unsuitable for the uterine arteries due to the low quality achievable of imaged deep vessels. In this paper a simplified spline-based technique was applied to create computational models for patient-specific simulations of uterine arterial heamodynamics. Moreover, a novel method to quantify the uterine flow rates was developed based on echo-Doppler measurements and computational data. Preliminary results obtained for four patients indicated a quite narrow range for the blood flow rate through the main uterine artery with large variability in the flow split between corporal and cervical branches. Furthermore, parabolic-like velocity profiles were obtained in the branching region of the different patients, suggesting a clinical use of averaged, not patient-specific, spatial velocity distribution coefficients for the blood flow rate calculation. The developed reconstruction method based on 3-D ultrasound imaging is efficient for creating realistic custom models of the uterine arteries. The results of the fluid dynamic simulations allowed us to quantify the uterine arterial flow and its repartition in normal pregnancies.
Keywords
Doppler measurement; biological organs; biomedical ultrasonics; blood flow measurement; blood vessels; image reconstruction; medical image processing; obstetrics; splines (mathematics); 3-D ultrasound; computational patient-specific models; echo-Doppler measurement; feto-placental patho-physiology; fluid dynamic simulation; image reconstruction; parabolic-like velocity profile; pregnancy; spatial velocity distribution coefficient; spline-based technique; superficial vessel; ultrasonographic flow rate evaluation; uterine arterial heamodynamics; uterine blood flow rate; Arteries; Blood flow; Computational modeling; Data flow computing; Fluid flow measurement; Hemodynamics; Pregnancy; Reconstruction algorithms; Spline; Ultrasonic imaging; Computational Fluid Dynamics; Computational fluid dynamics; Custom models; Three-dimensional ultrasound; Uterine blood flow rate; custom models; three-dimensional ultrasound; uterine blood flow rate; Algorithms; Blood Flow Velocity; Blood Vessels; Female; Humans; Image Interpretation, Computer-Assisted; Imaging, Three-Dimensional; Models, Cardiovascular; Pregnancy; Pulsatile Flow; Ultrasonography, Doppler, Color; Uterus;
fLanguage
English
Journal_Title
Medical Imaging, IEEE Transactions on
Publisher
ieee
ISSN
0278-0062
Type
jour
DOI
10.1109/TMI.2008.924642
Filename
4505800
Link To Document