Keyphrases
Hypoxia-ischemia
100%
Iron Chelator
100%
Neuroprotective Agents
100%
Ischemic Condition
100%
Neuronal Injury
100%
Free Iron
100%
Neurological Disorders
50%
Cell Viability
50%
High Concentration
50%
Regulatory Proteins
50%
Hypoxia
50%
Neuronal Death
50%
Cellular Homeostasis
50%
Non-noble Metal
50%
Ferritin
50%
Metabolic Processes
50%
Complex Interplay
50%
Iron Metabolism
50%
Iron Homeostasis
50%
Transferrin
50%
Transferrin Receptor 1 (TfR1)
50%
Intracellular Iron
50%
Iron Concentration
50%
Tight Regulation
50%
Intracellular Storage
50%
IRP1
50%
Iron Storage
50%
Protein Sensor
50%
Extracellular Transport
50%
Iron Transport
50%
Transferrin Iron
50%
Iron Sensing
50%
Neuroscience
Neuroprotective Agent
100%
Chelating Agent
100%
Cofactor
100%
Transferrin Receptor
100%
Neuronal Cell Death
100%
Neuronal Injury Mechanisms
100%
Neurological Disorder
100%
Regulator Protein
100%
Ferritin
100%
Cell Viability
100%
Transferrin
100%
Iron Regulatory Factor
100%
Iron Metabolism
100%
Cerebrovascular Accident
100%
Pharmacology, Toxicology and Pharmaceutical Science
Injury
100%
Iron Chelating Agent
100%
Neuroprotective Agent
100%
Cell Viability
50%
Neurologic Disease
50%
Hypoxia
50%
Transition Element
50%
Regulator Protein
50%
Ferritin
50%
Cerebrovascular Accident
50%
Iron Regulatory Factor
50%
Transferrin
50%
Transferrin Receptor
50%
Biochemistry, Genetics and Molecular Biology
Homeostasis
100%
Cell Viability
100%
Iron Metabolism
100%
Iron Homeostasis
100%
Transferrin
100%
Transferrin Receptor
100%
Ferritin
100%