The ability to directly print compliant biomedical devices on live human organs could benefit
patient monitoring and wound treatment, which requires the 3D printer to adapt to the …

Finite element analysis (FEA)-based biomechanical modeling can be used to predict lung
respiratory motion. In this technique, elastic models and biomechanical parameters are two …

Lung radiotherapy is greatly benefitted when the tumor motion caused by breathing can be
modeled. The aim of this paper is to present the importance of using anisotropic and subject …

In this paper simulations of brittle fracture and hydroelastic problems are carried out by using
a numerical approach based on the Moving Particle Simulation (MPS) method. It is a …

ABSTRACT A biomechanical model of human lung is developed and used to investigate the
effect of gravity on lung deformation. The lung is assumed to behave as a poro-elastic …

Human lung undergoes breathing-induced deformation in the form of inhalation and
exhalation. Modeling the dynamics is numerically complicated by the lack of information on …

BACKGROUND: Finite element models of lung motion can aid in understanding
mechanically driven lung deformation. Current finite element models consider each lung half …

Methods to estimate respiratory organ motion can be divided into two groups: biophysical
modeling and image registration. In image registration, motion fields are directly extracted …

From the previous works, we found that the stability of the pressure solution obtained by
using particle-based method can be improved by solving the pressure equation on a …

Human lung undergoes breathing-induced deformation in the form of inhalation and
exhalation. Modeling the dynamics is numerically complicated by the lack of information on …