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Simulation of red blood cell motion in microvessels and bifurcations
Timothy W Secomb
Physiology
BIO5, Institute of
Physiological Sciences - GIDP
Biomedical Engineering
Mathematics
Applied Mathematics - GIDP
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Dive into the research topics of 'Simulation of red blood cell motion in microvessels and bifurcations'. Together they form a unique fingerprint.
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Mathematics
Red Blood Cells
100%
Bifurcation
52%
Cell
50%
Motion
49%
Simulation
42%
Blood Flow
29%
Mechanical Properties
28%
Microcirculation
19%
Cell Migration
17%
Interaction
16%
Asymmetry
12%
Resistance
11%
Tube
11%
Dimensionality
11%
Experimental Data
11%
Membrane
11%
Transverse
11%
Prediction
9%
Configuration
8%
Partition
8%
Three-dimensional
8%
Model
7%
Physics & Astronomy
erythrocytes
75%
cells
36%
simulation
25%
blood flow
21%
flow resistance
13%
mechanical properties
12%
constitution
11%
files
10%
two dimensional models
10%
partitions
9%
assembly
8%
interactions
7%
asymmetry
7%
tubes
6%
predictions
5%
configurations
5%
Medicine & Life Sciences
Microvessels
68%
Erythrocytes
53%
Cell Communication
21%
Constitution and Bylaws
13%
Cell Shape
13%
Microcirculation
12%
Capillaries
11%
Cell Movement
9%
Cell Membrane
8%
Chemical Compounds
Red
46%
Simulation
42%
Flow
36%
Shape
14%
Asymmetry
12%
Partition
11%
Resistance
7%