INVESTIGADORES
LARRABIDE ignacio
artículos
Título:
A clinically aligned experimental approach for quantitative characterization of patient-specific cardiovascular models
Autor/es:
NARATA, ANA PAULA; SILVA DE MOURA, FERNANDO; PATAT, FRÉDERIC; MARZO, ALBERTO; LARRABIDE, IGNACIO; GREGOIRE, JEAN-MARC; PERRAULT, CECILE; SENNOGA, CHARLES A.; BOUAKAZ, AYACHE
Revista:
AIP Advances
Editorial:
American Institute of Physics Inc.
Referencias:
Año: 2020 vol. 10
Resumen:
Recent improvements in computational tools opened the possibility of patient-specific modeling to aid clinicians during diagnosis, treatment, and monitoring. One example is the modeling of blood flow for surgical planning, where modeling can help predict the prognosis. Computational analysis is used to extract hemodynamic information about the case; however, these methods are sensitive to assumptions on blood properties, boundary conditions, and appropriate geometry accuracy. When available, experimental measurements can be used to validate the results and, among the modalities, ultrasound-based methods are suitable due to their relative low cost and non-invasiveness. This work proposes a procedure to create accurate patient-specific silicone replicas of blood vessels and a power Doppler compatible experimental setup able to simulate and measure realistic flow conditions. The assessment of silicone model geometry shows small discrepancies between these and the target geometries (median of surface error lies within 57 μm and 82 μm). Power Doppler measurements were compared against computational fluid dynamics results, showing discrepancies within 10% near the wall. The experimental approach offers a setup to quantify flow in in vitro systems and provide more accurate results where other techniques (e.g., particle image velocimetry and particle tracking velocimetry) have shown limitations due to the interference of the interface.