Keyphrases
Endoplasmic Reticulum Stress (ER stress)
100%
Liver Damage
100%
Free Fatty Acids
100%
Amiodarone
100%
Stress Dependence
100%
Hepatotoxic
100%
Adipose Tissue
100%
Lipolysis
100%
Fatty Acid Accumulation
100%
Palmitate
21%
Liver
14%
Liver Tissue
14%
Total Lipids
14%
Stearoyl-CoA Desaturase 1 (SCD1)
14%
Through Effect
14%
Triacylglycerol
14%
ELOVL6
14%
Hepatic Accumulation
14%
Protein Level
7%
MRNA Level
7%
Gene Expression
7%
Insults
7%
Chronic Administration
7%
Encoded Protein
7%
Fatty Liver
7%
Lipogenesis
7%
Chronic Liver Disease
7%
Lipid Environment
7%
3T3-L1 Adipocytes
7%
Hepatic Injury
7%
Hepatic Steatosis
7%
Hepatic Lipid Accumulation
7%
Desaturase
7%
Fatty Acid Profile
7%
Fatty Acid Synthesis
7%
Fatty Acid Transport
7%
Toxicity Mechanism
7%
Fatty Acid Binding Protein 4 (FABP4)
7%
Antiarrhythmic Drugs
7%
Hepatocyte Apoptosis
7%
Hepatic Lipid
7%
Lipotoxic
7%
Acute Liver Disease
7%
Fatty Acid Uptake
7%
Cluster of Differentiation 36 (CD36)
7%
Drug-induced Liver Injury
7%
Hepatic Lipotoxicity
7%
Elongase
7%
Biochemistry, Genetics and Molecular Biology
Endoplasmic Reticulum Stress
100%
Free Fatty Acids
100%
Amiodarone
100%
Lipolysis
100%
Lipid
14%
Triglyceride
14%
Lipid Liver Level
14%
Fatty Acid Transport
14%
Messenger RNA
7%
Enzyme
7%
Mouse
7%
Secretion (Process)
7%
Alpha Oxidation
7%
Lipogenesis
7%
Adipocyte
7%
Antiarrhythmic Agent
7%
Lipid Storage
7%
Fatty Acid Synthesis
7%
Lipotoxicity
7%
Palmitoleic Acid
7%
Elongase
7%
CD36
7%
Immunology and Microbiology
Endoplasmic Reticulum Stress
100%
Adipose Tissue
100%
Lipolysis
100%
Amiodarone
100%
Liver Tissue
14%
Fatty Acid Transport
14%
Lipid Liver Level
14%
Mouse
7%
Secretion (Process)
7%
Lipogenesis
7%
Adipocyte
7%
Lipid Storage
7%
Fatty Acid Synthesis
7%
CD36
7%
Pharmacology, Toxicology and Pharmaceutical Science
Hepatotoxicity
100%
Fatty Acid
100%
Amiodarone
100%
Liver Injury
100%
Fatty Liver
14%
Triacylglycerol
14%
Palmitic Acid
14%
Mouse
7%
Antiarrhythmic Agent
7%
Chronic Liver Disease
7%
Lipotoxicity
7%
Toxic Hepatitis
7%
Palmitoleic Acid
7%