INIS
asbestos
100%
injuries
100%
mitigation
100%
apoptosis
80%
mitochondria
80%
fibrosis
46%
lungs
33%
oxygen
26%
cancer
20%
diseases
20%
mice
20%
production
20%
preservation
20%
boron chlorides
13%
dna damages
13%
damage
13%
management
13%
dna
13%
humans
13%
molecules
13%
transport
6%
levels
6%
information
6%
reduction
6%
repair
6%
electrons
6%
tobacco smokes
6%
amphibole
6%
hypothesis
6%
iron
6%
toxins
6%
death
6%
epithelium
6%
losses
6%
carcinogenesis
6%
malignancies
6%
proteins
6%
public health
6%
chains
6%
toxicity
6%
data
6%
oxidants
6%
pathogenesis
6%
particulates
6%
Medicine and Dentistry
Epithelial Cell
100%
Asbestos
100%
Cell Damage
100%
Programmed Cell Death
85%
Asbestosis
42%
Pulmonary Fibrosis
28%
Reactive Oxygen Species
28%
Mitochondrion
21%
Mitochondrial DNA
21%
Lung Cancer
21%
Silo-Filler's Disease
14%
Aconitase
14%
DNA Damage
14%
DNA Glycosylase
14%
8-Oxoguanine
14%
Fibrosis
14%
Introspection
14%
Human
14%
Alveolar Epithelium
7%
Pathogenesis
7%
Cigarette Smoke
7%
Oxidizing Agent
7%
Idiopathic Pulmonary Fibrosis
7%
Crocidolite
7%
Amphibole
7%
Mesothelioma
7%
Carcinogenesis
7%
Protein P53
7%
Protein Bcl 2
7%
Cell DNA
7%
Fibrogenesis
7%
Adverse Event
7%
Respiratory Chain
7%
Toxin
7%
Family
7%
Cancer
7%
Health
7%
Cell Regeneration
7%
Iron
7%
Death
7%
Disease
7%
Pharmacology, Toxicology and Pharmaceutical Science
Apoptosis
100%
Injury
100%
Asbestosis
54%
Lung Fibrosis
36%
Reactive Oxygen Metabolite
36%
Mouse
27%
Lung Cancer
27%
Mitochondrial DNA
27%
8 Hydroxyguanine
18%
Aconitase
18%
DNA Glycosyltransferase
18%
Human
18%
Fibrosis
18%
Lung Disease
18%
Atmospheric Aerosols
9%
Asbestos Exposure
9%
Crocidolite
9%
Cigarette Smoke
9%
Protein Bcl 2
9%
Adverse Event
9%
Toxin
9%
Pathogenesis
9%
Mesothelioma
9%
Fibrosing Alveolitis
9%
Protein P53
9%
Iron
9%
Death
9%
Amphibole
9%
Oxidizing Agent
9%
Cell DNA
9%
Carcinogenesis
9%
Diseases
9%
Cell Death
9%
Toxic Agent
9%