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Numerical simulation of the vascular structure dependence of blood flow in the kidney

Wei Deng, Ken-ichi TSUBOTA

2022Medical Engineering & Physics15 citationsDOI

Abstract

A numerical simulation was performed to clarify renal blood flow determination by the vascular structures. Large and small vessels were modeled as symmetric and asymmetric branching vessels, respectively, with simple geometries to parameterize the vascular structures. Modeling individual vessels as straight pipes, Murray's law was used to determine the vessel diameters. Blood flow in the vascular structure was calculated by network analysis based on Hagen-Poiseuille's law. Blood flow simulations for a vascular network segment demonstrated that blood flow rate and pressure vary within the same-generation vessels because of an asymmetric vessel branch while they generally tend to decrease with vessel diameter; thus, the standard deviation of flow rate relative to the mean (relative standard deviation [RSD]) increased from 0.4 to 1.0 when the number of the daughter vessels increased from 3 to 10. Blood flow simulations for an entire vascular network of a kidney showed that the vessel number and branching style, rather than Strahler order, are major parameters in successfully reproducing renal blood flow measured in published experiments. The entire vascular network could generate variation in the physiological flow rate in afferent arterioles at 0.2-0.38 in RSD, which is at least compatible with 0.16 by diameter variation within the same-generation vessels.

Topics & Concepts

Blood flowHagen–Poiseuille equationFlow (mathematics)Volumetric flow rateMechanicsAnatomyBranching (polymer chemistry)Blood vesselKidneyStandard deviationRenal blood flowMaterials scienceBiomedical engineeringGeometryMathematicsPhysicsCardiologyMedicineInternal medicineComposite materialStatisticsRenal and Vascular PathologiesCardiovascular Health and Disease PreventionHemodynamic Monitoring and Therapy
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