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Frontiers in neurology · Jan 2013
Consequences of the dynamic triple peak impact factor in Traumatic Brain Injury as Measured with Numerical Simulation.
- Hans von Holst and Xiaogai Li.
- Section of Neurosurgery, Division of Clinical Neuroscience, Karolinska Institutet Stockholm, Sweden ; Division of Neuronic Engineering, School of Technology and Health, Royal Institute of Technology (KTH) Stockholm, Sweden.
- Front Neurol. 2013 Jan 1;4:23.
AbstractThere is a lack of knowledge about the direct neuromechanical consequences in traumatic brain injury (TBI) at the scene of accident. In this study we use a finite element model of the human head to study the dynamic response of the brain during the first milliseconds after the impact with velocities of 10, 6, and 2 meters/second (m/s), respectively. The numerical simulation was focused on the external kinetic energy transfer, intracranial pressure (ICP), strain energy density and first principal strain level, and their respective impacts to the brain tissue. We show that the oblique impacts of 10 and 6 m/s resulted in substantial high peaks for the ICP, strain energy density, and first principal strain levels, however, with different patterns and time frames. Also, the 2 m/s impact showed almost no increase in the above mentioned investigated parameters. More importantly, we show that there clearly exists a dynamic triple peak impact factor to the brain tissue immediately after the impact regardless of injury severity associated with different impact velocities. The dynamic triple peak impacts occurred in a sequential manner first showing strain energy density and ICP and then followed by first principal strain. This should open up a new dimension to better understand the complex mechanisms underlying TBI. Thus, it is suggested that the combination of the dynamic triple peak impacts to the brain tissue may interfere with the cerebral metabolism relative to the impact severity thereby having the potential to differentiate between severe and moderate TBI from mild TBI.
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