The liver plays important roles in drug metabolism and homeostasis. The metabolism and
biotransformation can not only affect the efficacy of drugs but also result in hepatotoxicity …

There are different types of skin diseases due to chronic injuries that impede the natural
healing process of the skin. Tissue engineering has focused on the development of …

Addressing drug-induced liver injury is crucial in drug development, often causing Phase III
trial failures and market withdrawals. Traditional animal models fail to predict human liver …

In shear wave elastography, rotational wave speeds are converted to elasticity measures
using elastodynamic theory. The method has a wide range of applications and is the gold …

Usage of bioreactors in the field of tissue engineering has played a significant role in
enabling a controlled and reproducible change in the formation of damaged tissue on being …

Modular tissue engineering (TE) is based on the design, fabrication, and arrangement of
replicated microtissue constructs to generate functional tissues. The advantage of this …

The modeling of fibrotic effects on fluid flow and metabolism in the liver can be
computationally challenging. This paper combines innovative concepts based on …

We present a framework for modeling liver regrowth on the organ scale that is based on
three components:(1) a multiscale perfusion model that combines synthetic vascular tree …

The modelling of liver tissue across multiple length scales constitutes a significant
challenge, primarily due to the multiphysics coupling of mechanical response and perfusion …

The liver is the body's primary metabolic organ and its functions operate at multiple time and
spatial scales. Here we employ multiscale modelling techniques to describe these functions …