Engineering & Materials Science
Ligaments
100%
Tissue
91%
Bone
71%
Hydrogels
57%
Scaffolds
42%
Gels
33%
Polyethylene glycols
31%
Rapid prototyping
30%
Collagen
29%
Calcium phosphate
29%
Cements
29%
Hydroxyapatite
26%
Phosphorylation
22%
Cell proliferation
20%
Biopolymers
20%
Polysaccharides
20%
Degradation
19%
Mechanical properties
18%
Repair
18%
Physicochemical properties
17%
Cell culture
17%
Dehydration
17%
Crystallinity
16%
Tissue engineering
16%
Monitoring
15%
Magnesium
14%
Phosphates
14%
Plasmas
12%
Microscopic examination
12%
Alginate
12%
Imaging techniques
12%
Ascorbic acid
10%
Biomaterials
10%
Anchors
9%
Pectins
9%
Peptides
9%
Tissue regeneration
8%
Cell growth
8%
Heterografts
8%
Bone cement
7%
Tendons
7%
Gelation
7%
Salt deposits
7%
Osteoblasts
7%
Viscosity
6%
Printing
6%
Rats
6%
Engineers
6%
Soft materials
6%
Compressive strength
5%
Chemical Compounds
Collagen
39%
Calcium Phosphate
32%
Gel
29%
Musculoskeletal
26%
Hydrogel
26%
Strength
22%
Ascorbic Acid
18%
Biopolymer
18%
Fibrin
16%
Compression Strength
14%
Biotechnology
14%
Proline
14%
Implant
13%
Polysaccharide
11%
Biomaterial
11%
Dehydration
11%
Tensile Strength
11%
Magnesium Atom
11%
Poly(ethylene Glycol)
10%
Crystallinity
10%
Phosphate Salt
9%
Donor
9%
Plasma
8%
Gellan Gum
8%
Mineral
7%
Modification
7%
Young's Modulus
7%
Surface Structure
6%
Rheology
6%
Pectin
6%
Surface
6%
Alginate
5%
Resistance
5%
Raman Spectroscopy
5%
Dimension
5%
Coating Agent
5%
Medicine & Life Sciences
Ligaments
53%
Fibrin
27%
In Vitro Techniques
21%
Tantalum
20%
Collagen
18%
Bone and Bones
16%
Polyethylene Glycols
15%
Dehydration
14%
Durapatite
14%
Tissue Engineering
13%
dibasic calcium phosphate dihydrate
12%
Knee
11%
Skeletal Muscle
10%
Phosphorylation
9%
Gels
9%
Muscles
8%
Ascorbic Acid
7%
Autografts
6%
Fibroblasts
6%
Hydrogels
5%
Tendons
5%
Fluid Therapy
5%
Proline
5%
Tensile Strength
5%
Biotechnology
5%
