Keyphrases
Lung Injury
100%
Protective Effect
100%
In Vitro Model
100%
Pressure-induced
100%
Antenatal Steroids
66%
Whole Animal
33%
Lung
33%
Fast Recovery
33%
Cellular Viability
33%
Alveolar Epithelial Cells
33%
Long-term Morbidity
33%
On chip
33%
Fluidics
33%
Chronic Lung Disease
33%
Long-term Consequences
33%
Epithelial Cell Line
33%
Immaturity
33%
Aerodynamics
33%
Live-cell Assay
33%
Dose-response Relationship
33%
Pressure Effect
33%
Alveolar Capillary
33%
Alveoli
33%
Ventilator
33%
Ventilator-induced Lung Injury
33%
Pressure Application
33%
A549
33%
Congenital Diaphragmatic Hernia
33%
Cellular Surface
33%
Pressure Loss
33%
Bioelectrical
33%
Track Changes
33%
Membrane Disruption
33%
Capillary Interface
33%
Pressure Stimulus
33%
Short-term Consequences
33%
Aerodynamic Force
33%
Preterm Lung
33%
H441
33%
Extracellular Matrix Coating
33%
Engineering
Disruptions
100%
Alveolar Epithelial Cell
100%
Build Chamber
100%
Insight Model
100%
Fluidics
100%
Aerodynamics
100%
Aerodynamic Force
100%
Medicine and Dentistry
In Vitro
100%
Dexamethasone
100%
Lung
33%
Chronic Lung Disease
16%
Extracellular Matrix
16%
Capillary
16%
Prematurity
16%
Dose Response
16%
Epithelial Cell Line
16%
Cell Viability
16%
Congenital Diaphragm Hernia
16%
Ventilator Induced Lung Injury
16%
Immaturity
16%
Membrane Damage
16%
Neuroscience
Dexamethasone
100%
In Vitro
100%
Cell Line
16%
Epithelial Cells
16%
Cell Viability
16%
Membrane Damage
16%
Extracellular Matrix
16%
Pharmacology, Toxicology and Pharmaceutical Science
Dexamethasone
100%
Dose-Response Relationship
16%
Prematurity
16%
Chronic Lung Disease
16%
Immaturity
16%
Congenital Diaphragm Hernia
16%
Ventilator Induced Lung Injury
16%
Membrane Damage
16%
Biochemistry, Genetics and Molecular Biology
Dexamethasone
100%
Animal Models
16%
Cell Viability
16%
Immaturity
16%
Dose Response
16%
Membrane Damage
16%