Keyphrases
Hemodynamic Coupling
100%
Network Topology
100%
Computational Model
100%
Retinal Vascular Network
100%
Diabetic Retinopathy
100%
Cellular Biophysics
100%
Network Complexity
100%
Retinopathy
100%
Blood Cells
90%
Red Blood Cells
70%
Vascular Abnormalities
50%
Biophysical Properties
50%
Retinal Hemodynamics
40%
Retinal Tissue
40%
Retinal Vasculature
40%
Diabetes Distress
40%
Biophysics
40%
3D Deformation
40%
Rheology
40%
Plexus
40%
Morphological Abnormalities
30%
Diabetic
30%
Hemodynamic Forces
30%
Hemodynamic Parameters
30%
In Vivo Images
20%
Retinal Hypoxia
20%
Local Variation
20%
Diabetic Blood
20%
Pathogenic Factors
20%
Coupling Mechanism
20%
3D Geometry
20%
Flow Regulation
20%
Blood Tissue
20%
Hemodynamic Function
20%
Transient Deformation
20%
Blood Flow Autoregulation
20%
Multiscale Computational Modeling
20%
Cellular Scale
20%
Ultra-large-scale
20%
Clinical Evaluation
20%
Heterotypic
20%
Nitric Oxide Bioavailability
20%
Vascular Adaptation
20%
Capillary Vessels
20%
Individual Cells
20%
Hemodynamic Assessment
20%
Microstructural
20%
Tissue Flow
20%
Endothelium
20%
Gas Transport
20%
Microvascular Abnormalities
20%
Human Retina
20%
Predictive Computational Model
20%
Spatially Heterogeneous
20%
3D Vascular Network
20%
Specific Intent
20%
Tissue Hypoxia
20%
Tissue Oxygenation
20%
Diabetes
20%
Cell-to-cell
20%
Disease Severity
20%
Cell-mediated
10%
Computational Modeling
10%
Radial Peripapillary Capillary
10%
Geometric Details
10%
In Vivo Imaging
10%
In Silico
10%
Medicine and Dentistry
Hemodynamic
100%
Vascular Network
100%
Diabetic Retinopathy
100%
Retinopathy
43%
Blood Cell
39%
Erythrocyte
30%
Vascularity
17%
Morphology
12%
Diabetes Mellitus
12%
Nitric Oxide
8%
Autoregulation
8%
Diabetes
8%
Endothelium Cell
8%
Hypoxemia
8%
Gas Transport
8%
Tissue Gas
8%
Hypoxia
8%
Clinical Trial
8%
Blood Flow
8%
Capillary
8%
Bioavailability
8%
Disease Severity
8%