Abstract Design and optimization of microalgae processes have traditionally relied on the
application of unsegregated mathematical models, thus neglecting the impact of cell-to-cell …

Electrical impedance spectroscopy, owing to its label-free, noninvasive and easy
miniaturization nature, has shown great potential in cellular biochemical sensing and cell …

Several microalgae strains are capable to divide by multiple fission, namely they can give
rise to variable number of daughter cells after cytokinesis. Such behavior may have …

In biotechnology and biomedicine reliable models of cell proliferation kinetics need to
capture the relevant phenomena taking place during the mitotic cycle. To this aim, a novel …

The purpose of this study is to improve the design of a bioreactor for growing bone and other
three‐dimensional tissues using a computational fluid dynamics (CFD) software to simulate …

Based on the general theoretical model developed in Part I of this work, a series of
numerical simulations related to the in vitro proliferation kinetics of adherent cells is here …

Cell cycle regulates proliferative cell capacity under normal or pathologic conditions, and in
general it governs all in vivo/in vitro cell growth and proliferation processes. Mathematical …

Purpose Collagen I hydrogels are widely used as scaffolds for regeneration of articular
cartilage defects. We hypothesised that ingrowth might be improved by removing the …

This paper introduces a method to solve the inverse problem of determining an unknown
rate function in a partial differential equation (PDE) based on discrete measurements of the …

Cell cycle and its progression play a crucial role in the life of all living organisms, in tissues
and organs of animals and humans, and therefore are the subject of intense study by …