The lattice Boltzmann method (LBM) has experienced tremendous advances and been well
accepted as a popular method for simulating various fluid flow problems in porous media …

Solid organs transport fluids through distinct vascular networks that are biophysically and
biochemically entangled, creating complex three-dimensional (3D) transport regimes that …

Computational fluid dynamics (CFD) modeling of blood flow plays an important role in better
understanding various medical conditions, designing more effective drug delivery systems …

Understanding the dynamics of circulating tumor cell (CTC) behavior within the vasculature
has remained an elusive goal in cancer biology. To elucidate the contribution of …

We explore the Carleman linearization of the collision term of the lattice Boltzmann
formulation, as a first step towards formulating a quantum lattice Boltzmann algorithm …

Large-scale simulations of blood flow that resolve the 3D deformation of each comprising
cell are increasingly popular owing to algorithmic developments in conjunction with …

The potential impact of blood flow simulations on the diagnosis and treatment of patients
suffering from vascular disease is tremendous. Empowering models of the full arterial tree …

Conventional invasive diagnostic imaging techniques do not adequately resolve complex
Type B and C coronary lesions, which present unique challenges, require personalized …

In order to understand the effect of cellular level features on the transport of circulating
cancer cells in the microcirculation, there has been an increasing reliance on high …

Comorbidities such as anemia or hypertension and physiological factors related to exertion
can influence a patient's hemodynamics and increase the severity of many cardiovascular …