Simulating blood flows in arteries and veins unveils the severity of vascular disease, such as atherosclerosis, clotting and plaque rupture
Often vascular geometries are derived from medical images, which makes the usage of automated pipelines for geometry preparation and post-processing mandatory to investigate the blood flow in its entirety
Blood purification devices requires to tune operating conditions to minimize cellular damage and maximize throughput
MOEBIUS handles such geometries in full automation: a major paradigm change
Use the right blood rheology based on continuum models or in presence of explicit plasma and red blood cells
Analyze flow anomalies, pressure drops and derived biomarkers, such as Fractional Flow Reserve, under laminar and transitional conditions
Elute drugs in the blood stream at precision spots and evaluate the interaction with vascular walls and cells
Monitor maximum shear stress vs flow rates to control blood damage
Model blood filters in full detail and optimize the device for clog-free functioning
Quantify hemolysis and coagulation indicators based on the cells individual history
Analyze complex filter geometries by leveraging automatic meshing capabilities
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