An arteriovenous fistula, created by artificially connecting segments of a patient's vasculature, is the preferred way to gain access to the bloodstream for kidney dialysis. The increasing power and availability of supercomputing infrastructure means that it is becoming more realistic to use simulations to help identify the best type and location of a fistula for a specific patient. We describe a 3D fistula model that uses the lattice Boltzmann method to simultaneously resolve blood flow in patient-specific arteries and veins. The simulations conducted here, comprising vasculatures of the whole forearm, demonstrate qualified validation against clinical data. Ongoing research to further encompass complex biophysics on realistic time scales w...
The native arteriovenous fistula (AVF) represents the vascular access (VA) of first choice for hemod...
BackgroundExperimental modeling of arteriovenous hemodialysis fistula (AVF) hemodynamics is challeng...
The need to maintain long term vascular access patency is critical for patients with kidney failure....
This research forms part of an interdisciplinary project that aims to improve the understanding of h...
With the advent of using an arteriovenous fistula for hemodialysis, the anastomosis built for such u...
The flow rate inside arteriovenous fistulas is many times higher than physiological flow and is acco...
Arterio-venous fistulae (AVF) are surgically created vascular connections between an artery and a ve...
Despite arteriovenous fistulae (AVF) being the preferred vascular access for haemodialysis, high pri...
An arteriovenous fistula is a connection between an artery and vein, which is typically created in t...
To be able to connect haemodialysis patients to an artificial kidney a connection is surgically made...
During the hemodialysis session, the blood is purified through an extracorporeal artificial kidney. ...
Introduction Inadequate flow enhancement on the one hand, and excessive flow enhancement on the othe...
Many numerical studies of blood flow impose a rigid wall assumption due to the simplicity of its imp...
<div><h3>Introduction</h3><p>Inadequate flow enhancement on the one hand, and excessive flow enhance...
The native arteriovenous fistula (AVF) represents the vascular access (VA) of first choice for hemod...
BackgroundExperimental modeling of arteriovenous hemodialysis fistula (AVF) hemodynamics is challeng...
The need to maintain long term vascular access patency is critical for patients with kidney failure....
This research forms part of an interdisciplinary project that aims to improve the understanding of h...
With the advent of using an arteriovenous fistula for hemodialysis, the anastomosis built for such u...
The flow rate inside arteriovenous fistulas is many times higher than physiological flow and is acco...
Arterio-venous fistulae (AVF) are surgically created vascular connections between an artery and a ve...
Despite arteriovenous fistulae (AVF) being the preferred vascular access for haemodialysis, high pri...
An arteriovenous fistula is a connection between an artery and vein, which is typically created in t...
To be able to connect haemodialysis patients to an artificial kidney a connection is surgically made...
During the hemodialysis session, the blood is purified through an extracorporeal artificial kidney. ...
Introduction Inadequate flow enhancement on the one hand, and excessive flow enhancement on the othe...
Many numerical studies of blood flow impose a rigid wall assumption due to the simplicity of its imp...
<div><h3>Introduction</h3><p>Inadequate flow enhancement on the one hand, and excessive flow enhance...
The native arteriovenous fistula (AVF) represents the vascular access (VA) of first choice for hemod...
BackgroundExperimental modeling of arteriovenous hemodialysis fistula (AVF) hemodynamics is challeng...
The need to maintain long term vascular access patency is critical for patients with kidney failure....