Modular incorporation of deformable spine and 3D neck musculature into a simplified human body finite element model
Author:
Affiliation:
1. Department of Biomedical Engineering, Wake Forest University School of Medicine, Winston-Salem, NC, USA
2. Virginia Tech-Wake Forest University Center for Injury Biomechanics, Winston-Salem, NC, USA
Funder
NASA
National Institutes of Health: NIH
Publisher
Informa UK Limited
Subject
Computer Science Applications,Human-Computer Interaction,Biomedical Engineering,General Medicine,Bioengineering
Link
https://www.tandfonline.com/doi/pdf/10.1080/10255842.2023.2168537
Reference46 articles.
1. Validated thoracic vertebrae and costovertebral joints increase biofidelity of a human body model in hub impacts
2. Brain response of a computational head model for prescribed skull kinematics and simulated football helmet impact boundary conditions
3. Vestibulocollic and Cervicocollic Muscle Reflexes in a Finite Element Neck Model During Multidirectional Impacts
4. Development and implementation of a time- and computationally-efficient methodology for reconstructing real-world crashes using finite element modeling to improve crash injury research investigations
5. Simulation-based assessment of injury risk for an average male motorsport driver
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