Dynamic strain fields of the mouse brain during rotation
Mouse models are used to better understand brain injury mechanisms in humans, yet there
is a limited understanding of biomechanical relevance, beginning with how the murine brain …
is a limited understanding of biomechanical relevance, beginning with how the murine brain …
Bidirectional hyperelastic characterization of brain white matter tissue
SA Yousefsani, MZV Karimi - Biomechanics and Modeling in …, 2023 - Springer
Biomechanical study of brain injuries originated from mechanical damages to white matter
tissue requires detailed information on mechanical characteristics of its main components …
tissue requires detailed information on mechanical characteristics of its main components …
Validation of a computational biomechanical mouse brain model for rotational head acceleration
Recent mouse brain injury experiments examine diffuse axonal injury resulting from
accelerative head rotations. Evaluating brain deformation during these events would provide …
accelerative head rotations. Evaluating brain deformation during these events would provide …
Nonlinear mechanics of soft composites: hyperelastic characterization of white matter tissue components
This paper presents a bi-directional closed-form analytical solution, in the framework of
nonlinear soft composites mechanics, for top-down hyperelastic characterization of brain …
nonlinear soft composites mechanics, for top-down hyperelastic characterization of brain …