Computing Brain White and Grey Matter Injury Severity in a Traumatic Fall

Computing Brain White and Grey Matter Injury Severity in a Traumatic Fall

Blog Article

In the real world, the severity of traumatic injuries is measured using the Abbreviated Injury Scale (AIS).However, the AIS scale A New Strategy for Efficient Screening and Identification of Monoclonal Antibodies against Oncogenic Avian Herpesvirus Utilizing CRISPR/Cas9-Based Gene-Editing Technology cannot currently be computed by using the output from finite element human computer models, which currently rely on maximum principal strains (MPS) to capture serious and fatal injuries.In order to overcome these limitations, a unique Organ Trauma Model (OTM) able to calculate the threat to the life of a brain model at all AIS levels is introduced.The OTM uses a power method, named Peak Virtual Power (PVP), and defines brain white and grey matter trauma responses as a function of impact location and impact speed.

This research has considered ageing in the injury severity computation by including soft tissue material degradation, as well as brain volume changes due to ageing.Further, to account for the limitations of the Lagrangian formulation of the brain model in representing hemorrhage, an approach to include the effects of subdural hematoma Factors Motivating Generation Z in the Workplace: Managerial Challenges and Insights is proposed and included as part of the predictions.The OTM model was tested against two real-life falls and has proven to correctly predict the post-mortem outcomes.This paper is a proof of concept, and pending more testing, could support forensic studies.