Injury threshold for sagittal plane rotational induced diffuse axonal injuries
Paper in proceedings, 2009

Sagittal plane rotational acceleration induced diffuse axonal injury threshold was investigated using an animal model in which the heads of the rats were exposed to selected rotation accelerations. Post-trauma survival times ranged from 3 to 120 h. Numerous S100 serum concentrations, brain tissue stained for β-Amyloid Precursor Protein (β-APP), and probes for Cyclooxygenase 2 (COX2) mRNA were used to detect affected nerve cells, decaying axons, and cytoskeletal changes, respectively. Scaling laws were applied to estimate injury thresholds for the human brain. Confocal imaging revealed bands of β-APP-positive axons in the corpus callosum and its edges in animals exposed to rotational accelerations >1.1 Mrad/s2. Similarly, for COX2 presence and S100 concentrations at >0.9 Mrad/s2, the numbers of stained cells in the cortex and hippocampus and the concentrations increased. The data clearly indicate that the rat brain is injured at a specific rotational acceleration. Scaled to that of humans this would be 10 krad/s2 with a duration of 4 ms.

Animal model

Brain

Diffuse Axonal Injury

Author

Johan Davidsson

Chalmers, Applied Mechanics, Vehicle Safety

SAFER, The Vehicle and Traffic Safety Centre

Mårten Risling

Karolinska Institutet

Maria Angeria

Karolinska Institutet

2009 International IRCOBI Conference on the Biomechanics of Injury; York; United Kingdom; 9 September 2009 through 11 September 2009

43-55

Subject Categories

Mechanical Engineering

Biological Sciences

Areas of Advance

Transport

ISBN

978-303302050-4

More information

Latest update

2/21/2018