Keyphrases
Inflammation
100%
Carotene
100%
In Vitro Model
100%
Dysregulation
100%
IRP1
100%
Ferritin
66%
Ferroportin
50%
Chronic Inflammatory Diseases
33%
Caco-2 Cells
33%
Transferrin Receptor 1 (TfR1)
33%
Intracellular Iron
33%
Interleukin-1β
16%
Dose Effect
16%
Anti-inflammatory Agents
16%
Receptor Expression
16%
Strong Correlation
16%
Protein Dynamics
16%
Incubation Period
16%
Protein Level
16%
Vitamin A
16%
Anemia
16%
Anti-inflammatory Drugs
16%
Iron Concentration
16%
Intestinal Epithelial Cells
16%
Iron Absorption
16%
Iron Homeostasis
16%
Anemia of Chronic Disease
16%
Iron Regulation
16%
Iron Administration
16%
Iron Levels
16%
Iron Sequestration
16%
Vitamin A Supplementation
16%
Enhanced Bioavailability
16%
Concentration Period
16%
Medicine and Dentistry
In Vitro
100%
Iron Protein
100%
Carotene
100%
Ferritin
66%
Ferroportin
50%
Serositis
33%
Retinol
33%
Transferrin Receptor
33%
Interleukin 1
16%
Incubation Time
16%
Epithelial Cell
16%
Anemia
16%
Supplementation
16%
Caco-2
16%
Receptor Expression
16%
Bioavailability
16%
Anti-Inflammatory Drug
16%
Iron Homeostasis
16%
Anemia of Chronic Disease
16%
Antiinflammatory Agent
16%
Caco-2 Cell Line
16%
Iron Absorption
16%
Reticuloendothelial System
16%
Pharmacology, Toxicology and Pharmaceutical Science
Inflammation
100%
Carotene
100%
Ferritin
66%
Ferroportin
50%
Anemia
33%
Retinol
33%
Transferrin Receptor
33%
Bioavailability
16%
Anti-Inflammatory Drug
16%
Antiinflammatory Agent
16%
Interleukin 1
16%
Incubation Time
16%
Chronic Disease
16%
Neuroscience
In Vitro
100%
Carotene
100%
Ferritin
66%
Ferroportin
50%
Vitamin A
33%
Transferrin Receptor
33%
Interleukin 1
16%
Anti-Inflammatory
16%
Anti-Inflammatory Agent
16%
Cell Line
16%
Epithelial Cells
16%
Receptor Expression
16%
Biochemistry, Genetics and Molecular Biology
Iron Protein
100%
Carotene
100%
Ferritin
66%
Ferroportin
50%
Transferrin Receptor
33%
Vitamin A
33%
Incubation Time
16%
Interleukin-1
16%
Iron Homeostasis
16%
Iron Absorption
16%
Protein Dynamics
16%