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Ultrasonic measurements of breast viscoelasticity
Mallika Sridhar,
Michael F. Insana
Bioengineering
Electrical and Computer Engineering
Beckman Institute for Advanced Science and Technology
Biomedical and Translational Sciences
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peer-review
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Keyphrases
Breast
100%
Viscoelasticity
100%
Viscoelastic Strain
100%
Ultrasonic Measurement
100%
Creep Curve
100%
Glandular Tissue
100%
Echo Data
50%
Force Applied
50%
Viscoelastic Properties
50%
Applied Force
50%
Strain Imaging
50%
Viscoelastic Response
50%
Surface Forces
50%
Compressive Force
50%
Constant Strain
50%
In Vivo Measurement
50%
Stress-strain Curve
50%
Force Constants
50%
Elastic Strain
50%
Breast Tissue
50%
Voigt Model
50%
Creep Response
50%
Viscous Creep
50%
Retardance
50%
Quasi-static
50%
Gelatin Hydrogel
50%
Ultrasonic Echo
50%
Uniaxial Compressive
50%
Viscoelastic Polymer
50%
Average Model
50%
Breast Measurements
50%
Strain Parameters
50%
Ramp Time
50%
Strain Amplitude
50%
Tissue Creep
50%
Engineering
Ultrasonics
100%
Creep
100%
Viscoelasticity
100%
Applied Force
50%
Constant Time
25%
Hydrogel
25%
Compressive Force
25%
Stress-Strain Curve
25%
Elastic Strain
25%
Strain Amplitude
25%
Earth and Planetary Sciences
Ultrasonics
100%
Viscoelasticity
100%
Time Constant
50%
Time Series
50%
Gelatin
50%
Surface Force
50%
Material Science
Creep
100%
Viscoelasticity
100%
Hydrogel
25%
Surface (Surface Science)
25%