Keyphrases
Hyperoxia
100%
Retinal Degeneration
100%
Oxygen-induced Retinopathy
100%
Arginase 2
100%
Polyamine Metabolism
100%
Retina
66%
Retinopathy of Prematurity
33%
Oxygen-induced Retinopathy Model
22%
Neurodegeneration
11%
Neonate
11%
Vascular Injury
11%
Expression Level
11%
Retinal Function
11%
Apoptotic Cells
11%
Central Nervous System
11%
Neuroprotection
11%
Mass Spectrometry Analysis
11%
In the Wild
11%
Premature Infant
11%
Polyamines
11%
Neuronal Survival
11%
Neuronal Death
11%
Arginase
11%
Retinal Neurons
11%
Neuroglial
11%
Glial Injury
11%
1,4-butanediamine
11%
Polyamine Oxidase
11%
Childhood Blindness
11%
Spermine Oxidase
11%
Neuroscience
Neurodegeneration
100%
Metabolic Pathway
100%
Polyamine
100%
Hyperoxia
100%
Retinal Disease
100%
Arginase
100%
Retinopathy of Prematurity
27%
Neuroprotection
9%
Central Nervous System
9%
Neuronal Death
9%
Nerve Cell Degeneration
9%
Retinal Neuron
9%
Spermine
9%
Putrescine
9%
Polyamine Oxidase
9%
Medicine and Dentistry
Hyperoxia
100%
Arginase
100%
Oxygen-Induced Retinopathy
100%
Neurodegeneration
100%
Polyamine Metabolism
100%
Retinopathy of Prematurity
27%
Disease
9%
Blood Vessel Injury
9%
Injury
9%
Visual Impairment
9%
Neuroprotection
9%
Central Nervous System
9%
Neonate
9%
Prematurity
9%
Polyamine
9%
Mass Spectrum
9%
Oxidoreductase Inhibitor
9%
Oxidoreductase
9%
Spermine
9%
Retinal Neuron
9%
Nerve Cell Degeneration
9%
Putrescine
9%
Polyamine Oxidase
9%
Pharmacology, Toxicology and Pharmaceutical Science
Polyamine
100%
Arginase
100%
Nerve Degeneration
100%
Oxygen-Induced Retinopathy
100%
Retrolental Fibroplasia
27%
Oxidoreductase Inhibitor
9%
Disease
9%
Blood Vessel Injury
9%
Injury
9%
Mouse Model
9%
Neuroprotection
9%
Prematurity
9%
Oxidoreductase
9%
Visual Impairment
9%
Spermine
9%
Nerve Cell Degeneration
9%
Putrescine
9%
Polyamine Oxidase
9%
Immunology and Microbiology
Hyperoxia
100%
Polyamine Metabolism
100%
Wild Type
60%
Mouse Model
20%
Central Nervous System
20%
Mass Spectrometry
20%
Nerve Cell Degeneration
20%