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A Theoretical Analysis of Intracellular Oxygen Diffusion
A. Dutta,
A. S. Popel
School of Medicine
Research output
:
Contribution to journal
›
Article
›
peer-review
66
Scopus citations
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Mathematics
Oxygen
95%
Permeability
86%
Theoretical Analysis
70%
Lipids
55%
Muscle
38%
Water
12%
Pathway
9%
Experimental Data
8%
Membrane
8%
Cardiac Myocytes
8%
Cardiac muscle
7%
Mitochondria
6%
Temperature Dependence
6%
Extrapolate
5%
Solubility
5%
Prediction Model
5%
Volume Fraction
5%
Theoretical Model
5%
Inconsistent
4%
Protein
4%
Exercise
4%
Phase Transition
4%
Trends
4%
Arrangement
4%
Calculate
3%
Cell
3%
Upper bound
2%
Range of data
2%
Model
1%
Engineering & Materials Science
Lipids
100%
Muscle
69%
Oxygen
60%
Tissue
39%
Temperature
18%
Membrane Lipids
16%
Water
15%
Mitochondria
15%
Rats
11%
Solubility
10%
Diaphragms
10%
Phase transitions
9%
Proteins
8%
Volume fraction
8%
Membranes
7%
Agriculture & Biology
permeability
63%
oxygen
52%
muscles
19%
lipids
15%
cytosol
11%
tissues
9%
temperature
8%
water
6%
lipid content
6%
cardiomyocytes
5%
protein value
4%
theoretical models
4%
diaphragm
4%
phase transition
4%
myocardium
4%
exercise
3%
solubility
3%
mitochondria
3%
prediction
2%
rats
2%
cells
1%
Medicine & Life Sciences
Permeability
64%
Oxygen
53%
Lipids
21%
Muscles
17%
Temperature
14%
Cytosol
12%
Water
8%
Phase Transition
5%
Membrane Lipids
4%
Diaphragm
4%
Solubility
4%
Cardiac Myocytes
3%
Myocardium
3%
Mitochondria
3%
Theoretical Models
3%
Membranes
2%
Proteins
1%
Chemical Compounds
Permeability
59%
Diffusion
45%
Dioxygen
36%
Lipid
22%
Solubility
2%
Volume
2%
Protein
1%