Abstract
There are a very limited number of reports concerning the relationship between pedestrian head injuries and collision parameters through a combination of statistical analysis methods and finite element method (FEM). This study aims to explore the characteristics of pedestrian head injuries in car–pedestrian collisions at different parameters by using the two means above. A retrospective analysis of pedestrian head injuries was performed based on detailed investigation data of 61 car–pedestrian collision cases. The head damage assessment parameters (head injury criterion (HIC), peak stress on the skull, maximal principal strain for the brain) in car–pedestrian simulation experiments with four contact angles and three impact velocities were obtained by FEM. The characteristics of the pedestrian head injuries were discussed by comparing and analyzing the statistical analysis results and finite element analysis results. The statistical analysis results demonstrated a significant difference in skull fractures, contusion and laceration of brain and head injuries on the abbreviated injury scale (AIS)3+ was found at different velocities (p < 0.05) and angles (p < 0.05). The simulation results showed that, in pedestrian head-to-hood impacts, the values of head damage assessment parameters increased with impact velocities. At the same velocity, these values from the impact on the pedestrian’s back were successively greater than on the front or the side. Furthermore, head injury reconstruction and prediction results of two selected cases were consistent with the real injuries. Overall, it was further spelled out that, for shorter stature pedestrians, increased head impact velocity results in greater head injury severity in car–pedestrian collision, especially in pedestrian head-to-hood impacts. Under a back impact, the head has also been found to be at greater damage risk for shorter stature pedestrians, which may have implications on automotive design and pedestrian protection research if prevention and treatment of these injuries is to be prioritized over head injuries under a front or side impact.
Highlights
IntroductionIn car–pedestrian collisions, the pedestrian’s head can suffer from multiple injuries under different load conditions, such as skull fractures and brain injuries with different distributions and severities
In car–pedestrian collisions, the pedestrian’s head can suffer from multiple injuries under different load conditions, such as skull fractures and brain injuries with different distributions and severities.Reducing pedestrian head injury risk and guiding a better diagnosis and treatment for head traffic injuries requires a clear understanding of the collision events and head injuries
This study explores the characteristics of pedestrian head injuries in car–pedestrian collisions under different parameters by using a statistical analysis method and finite element method (FEM), which could provide a theoretical basis for automotive design and prevention and treatment of pedestrian injuries
Summary
In car–pedestrian collisions, the pedestrian’s head can suffer from multiple injuries under different load conditions, such as skull fractures and brain injuries with different distributions and severities. Reducing pedestrian head injury risk and guiding a better diagnosis and treatment for head traffic injuries requires a clear understanding of the collision events and head injuries. Corpse and dummy experiments and the mathematical dynamic model (MADYMO) are the main methods for studying the responses and damage mechanisms of the head in vehicle crashes. Res. Public Health 2016, 13, 1250; doi:10.3390/ijerph13121250 www.mdpi.com/journal/ijerph
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