Current tissue regenerative strategies rely mainly on tissue repair by transplantation of the
synthetic/natural implants. However, limitations of the existing strategies have increased the …

In vitro models are very important in medicine and biology, because they provide an insight
into cells' and microorganisms' behavior. Since these cells and microorganisms are isolated …

Culture medium is frequently modelled as water in computational fluid dynamics (CFD)
analysis of in vitro culture systems involving flow, such as bioreactors and organ-on-chips …

Techniques to provide in vitro tissue culture have undergone significant changes during the
last decades, and current applications involve interactions of cells and organoids, three …

The main challenge in tissue engineering consists in understanding and controlling the
growth process of in vitro cultured neotissues toward obtaining functional tissues …

The tissue-engineered blood vessel (TEBV) has been developed and used in
cardiovascular disease modeling, preclinical drug screening, and for replacement of native …

Metallic bone scaffolds fabricated by selective laser melting (SLM) have attracted significant
attention in bone tissue engineering. Scaffolds based on triply periodic minimal surfaces …

ABSTRACT Advanced three-dimensional (3D) bioprinting technology enables the precise
production of complex vascular structures and biomimetic models, driving advancements in …

Stem cells have enormous potential in health and medical research due to their ability to
differentiate into specialized cells and to self-renew. Applications can be seen in cell-based …

Hepatic differentiation of human‐induced pluripotent stem cells (hiPSCs) under flow
conditions in a 3D scaffold is expected to be a major step forward for construction of …