Engineering & Materials Science
Collagen
100%
Hydroxyapatite
98%
Biomaterials
92%
Bone
73%
Stem cells
53%
Mechanical properties
48%
Cell culture
24%
Minerals
19%
Tensile strength
15%
Grafts
12%
Phase separation
12%
Hydrolysis
11%
Polymerization
10%
Strength of materials
9%
Deposits
9%
Cells
9%
Repair
7%
Fabrication
6%
Composite materials
5%
Medicine & Life Sciences
Bone Regeneration
85%
Durapatite
80%
Biocompatible Materials
77%
Collagen
57%
Mesenchymal Stem Cells
34%
Tensile Strength
22%
Minerals
18%
hydroxyapatite-polylactide
17%
Polylactic Acid-Polyglycolic Acid Copolymer
12%
Bone Development
10%
Cancellous Bone
9%
Polymerization
9%
Hydrolysis
8%
Osteogenesis
8%
Transplants
5%
Bone and Bones
5%
Population
3%
Chemical Compounds
Osteogenic
96%
Biomaterial
64%
Liquid Film
36%
Tensile Strength
25%
Mineral
24%
Multicomponent Reaction
13%
Phase Separation
13%
Strength
9%
Hydrolysis
9%
Composite Material
7%