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For the past 50 years head injury biomechanics has been guided by measurements of accelerometers attached to the skull. These measurements provide a partial and indirect estimate of brain motion because the internal deformation of the brain is far more complex than the rigid motion of the skull. In this context, brain tissue behaves nonlinearly under conditions that are generally met by injurious...
Head injury biomechanics has been guided by measurements of accelerometers attached to the skull, which provides a partial and indirect estimate of brain motion because the internal deformation of the brain is far more complex than the rigid motion of the skull. Attempts to measure the in situ nonlinear brain mechanics with imaging methods (MRI, CT) have lacked the penetration, frame rate, or motion...
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