Pharmacology, Toxicology and Pharmaceutical Science
Halothane
100%
Hepatotoxicity
70%
Arsenite
42%
Guinea Pig
40%
Arsenical
36%
Nephrotoxicity
32%
Leporidae
31%
Malignant Transformation
29%
Bioactivation
25%
Cysteine
24%
Vinylidene Chloride
24%
Liver Injury
21%
Dimethyl Sulfoxide
21%
Potassium Ion
20%
Chloroform
18%
Glutathione
17%
Sevoflurane
16%
Mouse
16%
Inhalation Anesthetic Agent
15%
Cytotoxicity
14%
Malignant Neoplasm
14%
Enflurane
13%
Bladder Cancer
12%
Bromobenzene
12%
Injury
12%
Hepatoprotection
12%
Sodium Arsenite
12%
S (1,2 Dichlorovinyl)cysteine
12%
1,1,2 Trichloroethane
12%
Carbon 14
11%
Cysteine Conjugate
11%
Reactive Oxygen Metabolite
11%
Biological Marker
11%
Phenobarbital
11%
Carcinogenesis
11%
Cross-Sectional Study
10%
Disease
10%
Cytochrome P450
10%
Liver Protein
10%
Thiol Derivative
10%
Carbon Tetrachloride
9%
Necrosis
9%
Halide
9%
1,2-Dibromoethane
9%
Cacodylic Acid
9%
Rat Model
8%
Sufentanil
8%
Inflammation
8%
Methyltransferase
8%
Lactate Dehydrogenase
8%
Keyphrases
Halothane
53%
Hepatotoxicity
28%
Arsenic
27%
Monomethylarsonous Acid
25%
Covalent Binding
21%
Guinea pig
19%
Liver Slices
18%
Nephrotoxicity
17%
Arsenite (AsIII)
16%
Chemically Induced
16%
Chloroform
14%
Bioactivation
14%
Liver
13%
Malignant Transformation
13%
Biotransformation
13%
Drinking Water
12%
Enflurane
12%
Myocardial Slices
12%
Dimethyl Sulfoxide
12%
Organ Culture
10%
Potentiation
9%
Arsenic Metabolism
9%
Urothelial Cells
9%
Adult Rats
9%
Bladder Cancer Cells
8%
Inorganic Arsenic
8%
Halides
8%
Halogenated Anesthetics
8%
Sodium Arsenate
8%
Liver Injury
8%
Oxidative Biotransformation
8%
Sevoflurane
8%
Covalently Bound
8%
Rat Model
8%
Hepatoprotective
8%
Autoimmune
8%
Pig Liver
8%
Obese Patients
8%
Chlorotrifluoroethylene
8%
Sufentanil
8%
1,1,2-Trichloroethane
8%
Urinary Bladder
8%
Inflammatory Cytokine Genes
8%
Cortical Astrocytes
8%
Neoantigen
7%
Hepatitis
7%
Immune Response
7%
Volatile Anesthetics
7%
Protein Synthesis
6%
Metabolism
6%