Keyphrases
Indentation
100%
Atomic Force Microscope
100%
Rat Hippocampus
100%
Stratum Radiatum
100%
Mechanical Heterogeneity
100%
Traumatic Brain Injury
75%
Brain Tissue
75%
CA1P
75%
Dentate Gyrus
50%
Pyramidal Cell Layer
50%
Depth-dependent
50%
Indentation Depth
50%
Local Mechanical Properties
50%
Hippocampus
25%
Parahippocampal Region
25%
High Spatial Resolution
25%
High Sensitivity
25%
Finite Element Model
25%
Nonlinearity
25%
Physiologic Conditions
25%
CA1 Pyramidal Cells
25%
CA3 Pyramidal Cells
25%
Tissue Mechanical Properties
25%
Apparent Elastic Modulus
25%
High Ability
25%
Hippocampal Cell Loss
25%
Brain Injury Mechanism
25%
Biofidelic
25%
Injury Simulation
25%
Medicine and Dentistry
Hippocampus
100%
Stratum Radiatum
100%
Traumatic Brain Injury
75%
Brain Tissue
75%
Dentate Gyrus
50%
Pyramidal Cell
50%
Cell Death
25%
Finite Element Analysis
25%
Neuroscience
Hippocampus
100%
Neurotrauma
100%
Traumatic Brain Injury
100%
Dentate Gyrus
66%
Pyramidal Cell
66%
Cell Death
33%
Engineering
Atomic Force Microscope
100%
Indentation
100%
Brain Tissue
75%
Subregions
50%
Finite Element Modeling
25%
Spatial Resolution
25%
Injury Mechanism
25%
Nonlinearity
25%
Modulus of Elasticity
25%
Veterinary Science and Veterinary Medicine
Rat
100%
Protocerebrum
100%
Hippocampus
100%
Pyramidal Cell
28%
Dentate Gyrus
28%
Material Science
Indentation
100%
Finite Element Modeling
25%
Elastic Moduli
25%
Cell Death
25%