Most non-communicable diseases involve inflammatory changes in one or more vascular
systems, and there is considerable evidence that unliganded iron plays major roles in this …

Computational fluid–structure interaction (FSI) modeling is a technique used in engineering
to understand the effect that fluid flow and surrounding structures have on one another …

Morphogenesis is an emergent property of biochemical and cellular interactions during
development. Genome size and the correlated trait of cell size can influence these …

The microcirculation plays a major role in maintaining homeostasis in the body. Alterations
or dysfunctions of the microcirculation can lead to several types of serious diseases. It is not …

We investigate and compare the accuracy and efficiency of different numerical approaches
to model the dynamics of finite-size particles using the lattice Boltzmann method (LBM). This …

Background: Non-communicable diseases are often associated with chronic inflammation,
placing patients suffering from these conditions at a higher risk of thrombosis and other …

The current research presents a novel method in which blood particulates–biconcave red
blood cells (RBCs) and spherical cells are modeled using isogeometric analysis, specifically …

Nano-and micro-particle and droplet transport phenomena in complex flows are crucial for
many environmental [1, 2], industrial [3–9] and medical applications [10–12]. This class of …

Computational fluid–structure interaction (FSI) modeling is a technique used in engineering
to understand the effect that fluid flow and surrounding structures have on one another …

The aim of this study was to investigate the motion and deformation of the red blood cell in a
capillary using numerical modeling. The presented model related to three main parameters …