Finite element head (FE) models are important numerical tools to study head injuries and
develop protection systems. The generation of anatomically accurate and subject-specific …

Simple Summary With this review, the authors aim at providing the reader a concise
biological and biomechanical description of the main contributions in the field of traumatic …

Bicycle helmets are shown to offer protection against head injuries. Rating methods and test
standards are used to evaluate different helmet designs and safety performance. Both strain …

To provide reference and theoretical guidance for establishing human body dynamics
models and studying biomechanical vibration behavior, this study aimed to develop and …

Background and objective In the last few decades, several studies have been performed to
investigate traumatic brain injuries (TBIs) and to understand the biomechanical response of …

Finite element (FE) head models have become powerful tools in many fields within
neuroscience, especially for studying the biomechanics of traumatic brain injury (TBI) …

An accurate finite element (FE) model of the human brain reliably predicting its response to
loading offers great possibilities for brain injury prevention, disease prediction, and surgical …

Finite element head models are a tool to better understand brain injury mechanisms. Many
of the models use strain as output but with different percentile values such as 100th, 95th …

Numerous head injury models exist that vary in mesh density by orders of magnitude. A
careful study of the mesh convergence behavior is necessary, especially in terms of strain …

The CORA rating metric is frequently used in the field of injury biomechanics to compare the
similarity of response time histories. However, subjectivity exists within the CORA metric in …