INIS
bones
100%
mice
49%
macrophages
45%
osteoblasts
44%
muscles
41%
atp
39%
humans
36%
loading
31%
receptors
29%
in vivo
27%
cancer
27%
genes
26%
proteins
25%
diseases
25%
in vitro
21%
tumors
20%
bone diseases
18%
biological materials
17%
breasts
17%
phosphates
16%
damage
16%
phenotype
16%
knock-out reactions
16%
applications
16%
delivery
15%
teeth
15%
metastases
15%
biomimetics
15%
levels
14%
repair
14%
tissues
14%
losses
14%
inflammation
13%
metabolism
12%
hypoxia
12%
drugs
11%
stimuli
11%
regulations
11%
oxidases
11%
growth factors
11%
strains
11%
patients
10%
fluid flow
10%
stem cells
10%
universities
10%
rna
10%
angiogenesis
10%
imo
10%
polyoma virus
10%
antigens
10%
Biochemistry, Genetics and Molecular Biology
Osteoblast
43%
Adenosine Triphosphate
35%
Macrophage
34%
Purinergic Receptor
32%
Ectopic Calcification
22%
Dystrophin
21%
Mouse Model
19%
Lysyl Oxidase
13%
Ossification
13%
Osteolysis
12%
Tumor Progression
12%
Mineralization
11%
RNA
10%
Metabolic Pathway
10%
Homeostasis
10%
Chemokine
10%
CXCL5
10%
P2 Receptor
10%
Angiogenesis
10%
CD68
10%
Secretome
10%
Vascular Endothelial Growth Factor
10%
Fluid Flow
10%
Polyomavirus
10%
Immediate Early Gene
10%
Bone Development
10%
Knockout Mouse
9%
Vascularization
8%
Signal Transduction
6%
Sarcoglycan
6%
Tumor-Associated Macrophage
6%
Osteoclast
6%
Bone Mass
5%
Survival Rate
5%
Phosphate Blood Level
5%
Medicine and Dentistry
Biocompatible Material
22%
Malignant Neoplasm
20%
Osteoblast
19%
Bone Cancer
14%
Bone Disease
13%
Hypoxia
13%
Adenosine Triphosphate
13%
Osteoplasty
13%
Bone Remodeling
13%
Protein Lysine 6 Oxidase
12%
Bone Development
12%
Purinergic P2 Receptor
10%
Purinergic P2Y13 Receptor
10%
Vasculotropin
10%
Duchenne Muscular Dystrophy
10%
Stem Cell
10%
Angiogenesis
10%
Biomimetics
10%
Purinergic P2X7 Receptor
10%
Rare Disease
10%
Ewing Sarcoma
10%
Musculoskeletal Disease
10%
Chitin
10%
Biomimetic Material
10%
Tumor Cell
10%
Mesenchymal Stem Cell
10%
Bone Lesion
10%
Drug Repositioning
10%
Diseases
10%
Cell Culture
10%
Metastatic Carcinoma
9%
Implant
8%
In Vitro
8%
Homeostasis
7%
Tumor Progression
6%
Osteoclast
5%
Bone Atrophy
5%
Vascularity
5%