Engineering & Materials Science
Stem cells
100%
Biodegradable polymers
81%
Genes
67%
Tissue
44%
Tissue engineering
44%
Butenes
43%
DNA
36%
Nanobiotechnology
34%
Gene therapy
30%
Regenerative Medicine
28%
Endothelial cells
26%
Polymers
25%
Zeta potential
24%
Hydrophobicity
22%
Biomaterials
21%
Amines
20%
Blood vessels
20%
Esters
19%
Human engineering
18%
Blood
16%
Hydrodynamics
15%
Medicine & Life Sciences
Hypoxia-Inducible Factor 1
89%
Stem Cells
52%
butanediol diacrylate
51%
Tissue Engineering
46%
Polymers
41%
Stromal Cells
35%
Diamines
33%
1-Butanol
32%
Genes
28%
Blood Vessels
27%
poly(beta-amino ester)
21%
Transfection
20%
Hypoxia
18%
Up-Regulation
17%
Cell Engineering
15%
Ergonomics
14%
Hydrodynamics
13%
DNA
13%
Peripheral Arterial Disease
13%
Hydrophobic and Hydrophilic Interactions
13%
Regenerative Medicine
12%
Amines
12%
Esters
12%
Biocompatible Materials
11%
Genetic Therapy
10%
In Vitro Techniques
10%
Vascular Endothelial Growth Factor A
10%
Plasmids
9%
Endothelial Cells
8%
Population
4%
Therapeutics
3%
Chemical Compounds
Secondary Amine
17%
Hydrodynamics
16%
Zeta Potential
15%
Hydrophobicity
15%
Biomaterial
15%
Flow
11%
Application
11%
Ester
10%