Numerical investigation of knee prosthesis stresses in daily activities: Insight into knee rehabilitation and Creation of a new optimal model.

Total knee arthroplasty (TKA) is a cornerstone in addressing knee joint disorders, significantly enhancing patients' quality of life. However, despite technological advancements, a comprehensive understanding of the dynamic stresses experienced by knee prostheses during daily activities, particularly under rehabilitation interventions, remains elusive. This study aims to bridge this gap by employing numerical simulations and finite element analysis to elucidate these dynamic stresses and their interaction with rehabilitation protocols.

Simulation of heat transfer, mass transfer and tissue damage in magnetic nanoparticle hyperthermia with blood vessels.

Numerical simulation of magnetic nanoparticle hyperthermia for cancer treatment has been investigated in this study. The presented simulation did account for the effects of fluid flow, mass flow, and heat transfer during the MNP hyperthermia. The tumor was assumed to be a porous slab, 30% of which had been necrosed previously, with two capillaries, where magnetic nanoparticles were added into the bloodstream and distributed in the tumor by blood flow through capillaries.