The focus of this work is the numerical modeling of the anterior compartment of the human leg with particular attention to crural fascia. Interaction phenomena between fascia and muscles are of clinical interest to explain some pathologies, as the compartment syndrome. A first step to enhance knowledge on this topic consists in the investigation of fascia biomechanical role and its interaction with muscles in physiological conditions. A three-dimensional finite element model of the anterior compartment is developed based on anatomical data, detailing the structural conformation of crural fascia, composed of three layers, and modeling the muscles as a unique structure. Different constitutive models are implemented to describe the mechanical ...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
Simulating the muscular system has many applications in biomechanics, biomedicine and the study of m...
This paper examines the principal characteristics of an innovative biomechanical model for interpret...
Ten dissections of inferior limbs and histological studies were performed to describe the structura...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
The beneficial effects of the medical compression stocking (MCS) in the treatment of venous disorder...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In addition to providing a great advantage that geometrically highly complex structures can be model...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Abdominal wall biomechanics is dependent on muscular con-traction and Intra-Abdominal Pressure (IAP)...
This paper describes a finite element scheme for realistic muscle-driven simulation of human foot mo...
This paper presents a three dimensional computational model to simulate the mechanical behavior of t...
The human femur is one of the parts of the musculo-skeletal system most frequently analysed by means...
Computer generated three-dimensional (3-D) models are being used at increasing rates in the fields o...
AbstractThis paper presents a three dimensional computational model to simulate the mechanical behav...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
Simulating the muscular system has many applications in biomechanics, biomedicine and the study of m...
This paper examines the principal characteristics of an innovative biomechanical model for interpret...
Ten dissections of inferior limbs and histological studies were performed to describe the structura...
Representation of realistic muscle geometries is needed for systematic biomechanical simulation of m...
The beneficial effects of the medical compression stocking (MCS) in the treatment of venous disorder...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
In addition to providing a great advantage that geometrically highly complex structures can be model...
In previous applications of the finite element method in modeling mechanical behavior of skeletal mu...
Abdominal wall biomechanics is dependent on muscular con-traction and Intra-Abdominal Pressure (IAP)...
This paper describes a finite element scheme for realistic muscle-driven simulation of human foot mo...
This paper presents a three dimensional computational model to simulate the mechanical behavior of t...
The human femur is one of the parts of the musculo-skeletal system most frequently analysed by means...
Computer generated three-dimensional (3-D) models are being used at increasing rates in the fields o...
AbstractThis paper presents a three dimensional computational model to simulate the mechanical behav...
A mathematical model that simulates the mechanical processes inside a skeletal muscle under various ...
Simulating the muscular system has many applications in biomechanics, biomedicine and the study of m...
This paper examines the principal characteristics of an innovative biomechanical model for interpret...