Keyphrases
Cellular Damage
100%
Lipogenesis
100%
Flux Balance
100%
Valproate
100%
Balance Platform
100%
Stavudine
100%
Microphysiological
100%
Drug-induced Steatosis
100%
Clinical Outcomes
50%
Human Tissue
50%
Liver
50%
Adverse Effects
50%
Epilepsy
50%
Human Liver
50%
Hepatocytes
50%
Risk Reduction
50%
Lactate
50%
Drug Development
50%
Dynamic Change
50%
Mitochondrial Stress
50%
Response to Stimulus
50%
Metabolic Homeostasis
50%
Tissue Damage
50%
Two-frequency
50%
Microfluidics
50%
Steatosis
50%
Metabolic Stress
50%
Metabolic Flux
50%
Central Carbon Metabolism
50%
Endpoint Assay
50%
Phase Modulation
50%
Human Response
50%
Animal Experiment
50%
Microprobe
50%
Electrochemical Sensor
50%
Antiviral Drugs
50%
3D Culture
50%
Microfluidic Model
50%
2D Culture
50%
Liver-on-a-chip
50%
Mechanistic Information
50%
Chip Array
50%
Metabolic Fingerprinting
50%
Microphysiological Platforms
50%
Time-to-onset Analysis
50%
Depakine
50%
Organ-on-a-chip Technology
50%
Progressive Damage
50%
Flux Balance Analysis
50%
Medicine and Dentistry
Steatosis
100%
Sodium Valproate
100%
Stavudine
100%
Lipogenesis
66%
Cell Damage
66%
Homeostasis
33%
Adverse Event
33%
Biological Marker
33%
Hepatocyte
33%
Drug Therapy
33%
Tissue Injury
33%
Human Tissue
33%
Metabolic Stress
33%
Lactic Acid
33%
Carbon Metabolism
33%
Finger Dermatoglyphics
33%
Phase Modulation
33%
Microprobe
33%
Lead Poisoning
33%
Biochemistry, Genetics and Molecular Biology
Dynamics
100%
Stavudine
100%
Cell Damage
66%
Lipogenesis
66%
Homeostasis
33%
Animal Experiment
33%
Carbon Metabolism
33%
Hepatocyte
33%
Metabolic Flux
33%
TC50
33%
Flux Analysis
33%
Lead Poisoning
33%
Pharmacology, Toxicology and Pharmaceutical Science
Sodium Valproate
100%
Steatosis
100%
Stavudine
100%
Adverse Event
33%
Biological Marker
33%
Drug Development
33%
Tissue Injury
33%
Metabolic Stress
33%
Lactic Acid
33%
Lead Poisoning
33%