An investigation of the mechanical response of the human head subject to externally applied forces is analysed using the finite element method (FEM). The model's geometry description is based on individual 3D MRI datasets of the head. After segmentation the MRI data serves as input to a fully automated mesh generator. The underlying algorithms of the mesh generator are stable and fast. Isotropic and anisotropic meshes consisting of tetrahedra or brick elements are created with a predefined spatial resolution. The meshes are of high quality with regard to numerical stability of the FE calculation. Transient head impact simulations can be carried out on the basis of these meshes with a spatial resolution of up to 2 mm. The results of the impa...
Traumatic brain injury (TBI) is a great burden for the society worldwide and the statisticsindicates...
The procedures used in the modelling of the skull from the series of computer tomography
This project is aimed to generate a 2D model of head to study biomechanics of head injuries\ud due t...
The finite element (FE) modeling is a powerful tool for investigating the physical process producing...
The finite element method (FEM) is a way of solving partial differential equation on a spatially (an...
ABSTRACT Head injury constitutes approximately 50 percent of all injuries sustained in transition an...
This study is aimed at developing a high quality, validated finite element (FE) human head model for...
Head injuries are one of the main causes of death or permanent invalidity in everyday life. The main...
This study proposes a detailed biomechanical model of the human head to study the effect of non-pene...
The objective of this study is to obtain a better understanding of the possible importance of skull-...
The main objectives of the present thesis were to define the dimension of head injuries in Sweden ov...
<p>(<b>A</b>) Volume rendered image of MRI scan data used to construct this model. (<b>B</b>) Finite...
Over the years, the use of finite element (FE) head models for head impact research increased signif...
The use of realistic anatomy in the model used for image reconstruction in EIT of brain function app...
The developed finite element model of the human skull is used for analysis of transient phenomena af...
Traumatic brain injury (TBI) is a great burden for the society worldwide and the statisticsindicates...
The procedures used in the modelling of the skull from the series of computer tomography
This project is aimed to generate a 2D model of head to study biomechanics of head injuries\ud due t...
The finite element (FE) modeling is a powerful tool for investigating the physical process producing...
The finite element method (FEM) is a way of solving partial differential equation on a spatially (an...
ABSTRACT Head injury constitutes approximately 50 percent of all injuries sustained in transition an...
This study is aimed at developing a high quality, validated finite element (FE) human head model for...
Head injuries are one of the main causes of death or permanent invalidity in everyday life. The main...
This study proposes a detailed biomechanical model of the human head to study the effect of non-pene...
The objective of this study is to obtain a better understanding of the possible importance of skull-...
The main objectives of the present thesis were to define the dimension of head injuries in Sweden ov...
<p>(<b>A</b>) Volume rendered image of MRI scan data used to construct this model. (<b>B</b>) Finite...
Over the years, the use of finite element (FE) head models for head impact research increased signif...
The use of realistic anatomy in the model used for image reconstruction in EIT of brain function app...
The developed finite element model of the human skull is used for analysis of transient phenomena af...
Traumatic brain injury (TBI) is a great burden for the society worldwide and the statisticsindicates...
The procedures used in the modelling of the skull from the series of computer tomography
This project is aimed to generate a 2D model of head to study biomechanics of head injuries\ud due t...