. In producing realistic, animatable models of the human body, we see much to be gained from developing a functional anatomy that links the anatomical and physiological behavior of the body through fundamental causal principles. This paper describes our current Finite Element Method implementation of a simplified lung and chest cavity during normal quiet breathing and then disturbed by a simple pneumothorax. The lung model interacts with the model of the chest cavity through applied forces. The models are modular, and a second lung and more complex chest wall model can be added without disturbing the model of the other lung. During inhalation, a breathing force (corresponding to exertion of the diaphragm and chest wall muscles) is applied, ...
Understanding fluid and structure interactions in biological airways is essential for explaining the...
9th workchop HCPBM. Lyon (Fr). p 31International audienceOur team gathers medical, physical and comp...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
In producing realistic, animatable models of the human body, we see much to be gained from developin...
Injuries in trauma affect anatomical structures, indirectly affecting physiological systems through ...
We present an integrated approach between anatomical and physiological modeling that is useful in me...
Soft bodies are the models in which the bodies deform during animated frames depending on the intera...
International audienceNumerical modelling of lung behaviour during the respiration cycle is a diffic...
AbstractThis paper describes a structural model of the human rib cage and abdomen that incorporates ...
Over the past decade, road safety research and impact biomechanics have strongly stimulated the deve...
International audiencePatient-specific respiratory motion modeling may help to understand pathophysi...
International audienceTo study the interaction of forces that produce chest wall motion, we propose ...
International audienceMotivated by medical needs, we propose to simulate lung deformation and motion...
We develop a lung ventilation model based on a continuum poroelastic representation of lung parenchy...
Abstract: Tumour motion is an essential source of error for treatment planning in radiation therapy....
Understanding fluid and structure interactions in biological airways is essential for explaining the...
9th workchop HCPBM. Lyon (Fr). p 31International audienceOur team gathers medical, physical and comp...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...
In producing realistic, animatable models of the human body, we see much to be gained from developin...
Injuries in trauma affect anatomical structures, indirectly affecting physiological systems through ...
We present an integrated approach between anatomical and physiological modeling that is useful in me...
Soft bodies are the models in which the bodies deform during animated frames depending on the intera...
International audienceNumerical modelling of lung behaviour during the respiration cycle is a diffic...
AbstractThis paper describes a structural model of the human rib cage and abdomen that incorporates ...
Over the past decade, road safety research and impact biomechanics have strongly stimulated the deve...
International audiencePatient-specific respiratory motion modeling may help to understand pathophysi...
International audienceTo study the interaction of forces that produce chest wall motion, we propose ...
International audienceMotivated by medical needs, we propose to simulate lung deformation and motion...
We develop a lung ventilation model based on a continuum poroelastic representation of lung parenchy...
Abstract: Tumour motion is an essential source of error for treatment planning in radiation therapy....
Understanding fluid and structure interactions in biological airways is essential for explaining the...
9th workchop HCPBM. Lyon (Fr). p 31International audienceOur team gathers medical, physical and comp...
A real-time physiologically-based breathing model of lungs under normal and pathological scenario ha...