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Lung oxidative damage by hypoxia
O. F. Araneda,
M. Tuesta
Rehabilitation Sciences School
Research output
:
Contribution to journal
›
Review article
›
peer-review
50
Citations (Scopus)
Overview
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Biochemistry, Genetics and Molecular Biology
Enzyme
100%
Oxidoreductase
100%
NAD(P)H Oxidase
100%
Mitochondrion
100%
Animal Model
100%
Reductase
100%
Xanthine Oxidase
100%
Vasoconstriction
100%
Isolated Lung
100%
Nitric Oxide Synthase
100%
Oxygenation
100%
Keyphrases
Oxidative Damage
100%
Lung
100%
Hypoxia
100%
Redox State
33%
Reactive Oxygen Species
16%
Reductase
16%
NADPH Oxidase
16%
Mitochondria
16%
Inflammatory Process
16%
Inducible Nitric Oxide Synthase
16%
Lung Function
16%
Vascular Remodeling
16%
Culture Studies
16%
Lung Cells
16%
Pulmonary Edema
16%
Hypoxic Pulmonary Vasoconstriction
16%
Antioxidant Substances
16%
Isolated Lung
16%
Oxygenation
16%
Chronic Pulmonary Hypertension
16%
Xanthine Oxidase
16%
Medicine and Dentistry
Hypoxia
100%
Antioxidant
16%
Reactive Oxygen Species
16%
Oxidoreductase
16%
Mitochondrion
16%
Serositis
16%
Nitric Oxide Synthase
16%
Reduced Nicotinamide Adenine Dinucleotide Phosphate Oxidase
16%
Pulmonary Edema
16%
Vascular Remodeling
16%
Xanthine Oxidase
16%
Chronic Pulmonary Hypertension
16%
Vasoconstriction
16%
Pharmacology, Toxicology and Pharmaceutical Science
Hypoxia
100%
Reactive Oxygen Metabolite
16%
Antioxidant
16%
Oxidoreductase
16%
Inflammation
16%
Reduced Nicotinamide Adenine Dinucleotide Phosphate Oxidase
16%
Nitric Oxide Synthase
16%
Chronic Pulmonary Hypertension
16%
Xanthine Oxidase
16%
Lung Edema
16%
Vascular Remodeling
16%