Add to ORKGRelative brain-skull displacement under head rotational acceleration in rats was evaluated experimentally. For this, a thin pin was entered the cortex and rigidly attached to the skull prior to impact. For peak rotational accelerations of 1.7 Mrad/s2, the pin scarred the brain cortex; 1.2 mm superficially and less centrally. These measurements were used to validate the brain kinematics of a new anatomically detailed FE model of the head-neck complex of a rat. This model is intended to be used to clarify brain loading mechanisms and to develop brain tissue injury threshold for Diffuse Axonal Injuries as detected through immune-histology
Finite element (FE) brain models have been used as an effective tool for the investigation of trauma...
Les lésions traumatiques cérébrales sont une cause majeure de décès et d'infirmités dans nos société...
The development of head injury criteria and countermeasures for head protection requires understandi...
Relative brain-skull displacement under head rotational acceleration in rats was evaluated experimen...
An anatomically detailed finite element model of a rat head-neck complex has been developed from med...
The purpose of this study is to investigate the brain-strain-based thresholds for better prediction ...
The response of the rat brain during rotational acceleration was investigated using finite element s...
Traumatic brain injury (TBI) is caused by local tissue deformation at the time of trauma, leading to...
The model presented here produce brain injuries following sagittal plane rearward rotational acceler...
A new in vivo animal model that produces diffuse brain injuries in sagittal plane rearward rotationa...
Due to the frequency of diffuse brain injuries across the population and cost of treatment, there is...
A new test device to produce sagittal plane rearward rotational acceleration induced diffuse brainin...
Traumatic Brain Injuries (TBIs) account for about half of the 1 300 000 annual traffic related death...
Concussion, in spite of being a mild traumatic brain injury, involves serious long term consequences...
Sagittal plane rotational acceleration induced diffuse axonal injury threshold was investigated usin...
Finite element (FE) brain models have been used as an effective tool for the investigation of trauma...
Les lésions traumatiques cérébrales sont une cause majeure de décès et d'infirmités dans nos société...
The development of head injury criteria and countermeasures for head protection requires understandi...
Relative brain-skull displacement under head rotational acceleration in rats was evaluated experimen...
An anatomically detailed finite element model of a rat head-neck complex has been developed from med...
The purpose of this study is to investigate the brain-strain-based thresholds for better prediction ...
The response of the rat brain during rotational acceleration was investigated using finite element s...
Traumatic brain injury (TBI) is caused by local tissue deformation at the time of trauma, leading to...
The model presented here produce brain injuries following sagittal plane rearward rotational acceler...
A new in vivo animal model that produces diffuse brain injuries in sagittal plane rearward rotationa...
Due to the frequency of diffuse brain injuries across the population and cost of treatment, there is...
A new test device to produce sagittal plane rearward rotational acceleration induced diffuse brainin...
Traumatic Brain Injuries (TBIs) account for about half of the 1 300 000 annual traffic related death...
Concussion, in spite of being a mild traumatic brain injury, involves serious long term consequences...
Sagittal plane rotational acceleration induced diffuse axonal injury threshold was investigated usin...
Finite element (FE) brain models have been used as an effective tool for the investigation of trauma...
Les lésions traumatiques cérébrales sont une cause majeure de décès et d'infirmités dans nos société...
The development of head injury criteria and countermeasures for head protection requires understandi...