INIS
electromagnetic fields
100%
mice
89%
stem cells
66%
humans
62%
healing
58%
genes
56%
proteins
55%
levels
52%
control
44%
rats
42%
static magnetic fields
35%
growth factors
34%
burns
33%
collagen
33%
fractures
33%
gels
32%
males
30%
messenger-rna
27%
correlations
26%
comparative evaluations
25%
testes
22%
plasma
22%
cancer
22%
spermatogenesis
19%
sperm
16%
magnetic fields
16%
bones
15%
diet
15%
weight
15%
concentration
14%
fats
13%
ovaries
13%
obesity
13%
wounds
13%
applications
13%
density
12%
signals
12%
strains
12%
pcr
11%
androgens
11%
antigens
11%
yields
11%
processing
11%
spermatocytes
11%
tubules
11%
inhibition
11%
receptors
11%
ligands
11%
failures
11%
angiogenesis
11%
Keyphrases
Pulsed Electric Field
77%
Electromagnetic Field Exposure
73%
Human Adipose-derived Stem Cells (hADSCs)
37%
Static Magnetic Field
35%
Collagen Gel
33%
Extremely Low-frequency Electromagnetic Fields (ELF-EMFs)
33%
Fracture Healing
33%
Mesenchymal Stem Cells
33%
Obese Mice
33%
Delayed Union
27%
Spermatogenesis
27%
Electromagnetic Field
25%
Union Model
24%
Growth Factors
23%
Deep Dermal Burns
22%
Successive Generations
22%
Burn Healing
22%
Continuous Exposure
22%
Adipogenesis
22%
Platelet-rich Plasma
22%
Magnetic Field Exposure
22%
Relative Expression
19%
MRNA Expression
16%
Factor Level
16%
Collagen
15%
Freeze-thaw Cycles
15%
Adipose-derived Stem Cells
14%
Azoospermia
14%
Male Mice
13%
Swiss Albino Mice
13%
Adipose Cells
13%
High-fat Diet
13%
Testicle
13%
Apoptosis
12%
Fracture Healing Process
12%
Cell Viability
12%
Mouse Mus musculus
12%
Magnetic Field
12%
Femoral Fractures
12%
Quantitative PCR
11%
Obesity
11%
Bone Callus
11%
Double Minutes
11%
Lipoprotein Lipase
11%
Androgen-independent
11%
Associated Antigen
11%
Caput Epididymis
11%
Wnt Signaling Pathway
11%
Liposomal
11%
Human Exposure to Electromagnetic Fields
11%