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PH-induced contrast in viscoelasticity imaging of biopolymers
R. D. Yapp,
M. 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
Acidic Conditions
33%
Biopolymers
100%
Breast Stroma
66%
Breast Tumor
100%
Chemotherapy Resistance
33%
Collagenous
33%
Complex Modulus
33%
Contrast Mechanism
33%
Creep Relaxation
33%
Dangerous Environments
33%
Desmoplasia
33%
Diagnostic Imaging
33%
Discriminating Features
33%
Elastic Response
33%
Elasticity Imaging
100%
Extracellular Matrix
33%
Extracellular pH
66%
Gelatin Hydrogel
33%
Hydrogel Model
33%
Hydrogel Phantom
33%
Matrix Stiffness
33%
Model Observations
33%
Modulus Analysis
33%
PH Effect
33%
PH Influence
33%
PH-induced
100%
Physiological Features
33%
Polymer Network
66%
Proteoglycan
33%
Quasi-static
33%
Relaxation Measurements
33%
Stiffness Decrease
33%
Stress Relaxation
33%
Time-domain Simulation
33%
Ultrasonic Elasticity Imaging
33%
Vascular Network
33%
Viscoelastic Properties
33%
Viscous Response
33%
Material Science
Biopolymer
100%
Creep
33%
Elasticity
66%
Hydrogel
66%
Polymer Network
66%
Proteoglycan
33%
Stress Relaxation
33%
Tumor
100%
Viscoelasticity
100%