Add to ORKGA biomechanical model of the human stomach is proposed, that is based on detailed biological data of the structure and function of the organ. The process of electromechanical conjugation and the spread of the electro-mechanical wave along the stomach wall were analyzed numerically. Results revealed patterns of stress-strain distribution in the organ. Thus the fundus, the body and the antrum of the organ always experience biaxial stress-strain states, while the cardia and the pylorus undergo uniaxial loading. The circular smooth muscle layer produced greater total forces throughout in comparison to the outer longitudinal smooth muscle layer. The body of the organ along the lesser curvature and the cardia-fundus areas were overstressed compar...
The research for viscoelasticity of small intestine become significant in engineering due to the dev...
AbstractThis paper describes a structural model of the human rib cage and abdomen that incorporates ...
We present an electro-mechanical constitutive framework for the modeling of gastric motility, includ...
A mathematical model of the stomach as a soft electromyogenic biological shell is developed, which i...
Gastric diseases are one of the most relevant healthcare problems worldwide. Interventions and thera...
The oesophagus is a primarily mechanical organ which transports food from the pharynx to the stomach...
Evaluation of the distribution of stresses and strains in relation to distension-induced sensation i...
Even though bariatric surgery is one of the most effective treatment option of obesity, post-surgica...
Udgivelsesdato: DECThe function of the small intestine is to a large degree mechanical, and it has t...
In recent years, strain gradient elasticity has been used to capture size effects in stiffness and t...
The concept of a functional unit (FU) as the basic element of the gut as a mechanical structure is p...
Bariatric surgery is performed on obese people aiming at reducing the capacity of the stomach and/or...
Abdominal wall biomechanics is dependent on muscular con-traction and Intra-Abdominal Pressure (IAP)...
Udgivelsesdato: FEBThe function of the esophagus is mechanical. To understand the function, it is ne...
Considerable attention has been directed toward the study of the motility of the stomach and its reg...
The research for viscoelasticity of small intestine become significant in engineering due to the dev...
AbstractThis paper describes a structural model of the human rib cage and abdomen that incorporates ...
We present an electro-mechanical constitutive framework for the modeling of gastric motility, includ...
A mathematical model of the stomach as a soft electromyogenic biological shell is developed, which i...
Gastric diseases are one of the most relevant healthcare problems worldwide. Interventions and thera...
The oesophagus is a primarily mechanical organ which transports food from the pharynx to the stomach...
Evaluation of the distribution of stresses and strains in relation to distension-induced sensation i...
Even though bariatric surgery is one of the most effective treatment option of obesity, post-surgica...
Udgivelsesdato: DECThe function of the small intestine is to a large degree mechanical, and it has t...
In recent years, strain gradient elasticity has been used to capture size effects in stiffness and t...
The concept of a functional unit (FU) as the basic element of the gut as a mechanical structure is p...
Bariatric surgery is performed on obese people aiming at reducing the capacity of the stomach and/or...
Abdominal wall biomechanics is dependent on muscular con-traction and Intra-Abdominal Pressure (IAP)...
Udgivelsesdato: FEBThe function of the esophagus is mechanical. To understand the function, it is ne...
Considerable attention has been directed toward the study of the motility of the stomach and its reg...
The research for viscoelasticity of small intestine become significant in engineering due to the dev...
AbstractThis paper describes a structural model of the human rib cage and abdomen that incorporates ...
We present an electro-mechanical constitutive framework for the modeling of gastric motility, includ...