Keyphrases
Oxidative Stress
100%
Catalase
100%
Nanoparticles
100%
Human Neurons
100%
Hydrogen Peroxide
60%
Neuronal Injury
10%
Therapeutic Target
10%
DNA Damage
10%
Neurological Recovery
10%
Brain Injury
10%
Reactive Oxygen Species
10%
Neurodegenerative Diseases
10%
Disease Mechanisms
10%
Poly(lactic-co-glycolic acid) Nanoparticles
10%
Oxidative Damage
10%
Protein Oxidation
10%
Therapeutic Use
10%
Microtubule-associated Protein 2 (MAP2)
10%
Chronic Neurodegeneration
10%
Mitochondria-associated Membranes
10%
Two-level
10%
Highly Sensitive
10%
Neuronal Morphology
10%
Nanotechnology
10%
Mitochondrial Superoxide
10%
Enzymatic Activity
10%
High Efficiency
10%
Pore Opening
10%
Brain Targeting
10%
Induced Oxidative Stress
10%
Nanoparticle Uptake
10%
Antioxidant Activity
10%
H2 Formation
10%
Neurite Network
10%
Antioxidant Therapy
10%
Neuronal Protection
10%
Pre-exposure
10%
Catalase Encapsulation
10%
Transition Pore
10%
Degradative Enzymes
10%
Cultured Neurons
10%
Cell Membrane Integrity
10%
Neuroscience
Catalase
100%
Oxidative Stress
100%
Hydrogen Peroxide
45%
Antioxidant
18%
Neurodegenerative Disorder
18%
Reactive Oxygen Species
9%
Cell Membrane
9%
Microtubule Associated Protein 2
9%
Mitochondrial Membrane
9%
Enzyme Activity
9%
Neurite
9%
Glycolic Acid
9%
DNA Damage
9%
Cerebrovascular Accident
9%
Pharmacology, Toxicology and Pharmaceutical Science
Catalase
100%
Nanoparticle
100%
Hydrogen Peroxide
45%
Disease
18%
Injury
9%
Reactive Oxygen Metabolite
9%
Degenerative Disease
9%
Polyglactin
9%
Antioxidant
9%
Brain Injury
9%
Superoxide
9%
Microtubule Associated Protein 2
9%
Antioxidant Capacity
9%
Cerebrovascular Accident
9%
Biochemistry, Genetics and Molecular Biology
Catalase
100%
Oxidative Stress
100%
Hydrogen Peroxide
45%
DNA Damage
9%
Cell Membrane
9%
Enzyme
9%
Nerve Cell Culture
9%
Mitochondrial Membrane
9%
Antioxidant Activity
9%
Outer Mitochondrial Membrane
9%
Microtubule-Associated Protein 2
9%
Enzyme Activity
9%