Keyphrases
Reactive Oxygen Species
100%
Neuropathic Pain
100%
Rat Model
100%
Phenyl
50%
Tert
50%
Systemic Injection
33%
Mechanical Allodynia
33%
Pain Behavior
16%
Spinal Mechanisms
16%
Dose Effect
16%
Systemic Administration
16%
Free Radicals
16%
Biological Systems
16%
Free Radical Scavenger
16%
Reactive Oxygen Species Scavenger
16%
Nerve Ligation
16%
Analgesic Effect
16%
Intracerebroventricular Administration
16%
Systemic Treatment
16%
Intrathecal Injection
16%
Spinal Nerve Ligation
16%
Spinal Nerve Ligation Model
16%
Nitrobenzene
16%
N-oxides
16%
Repeated Injection
16%
Toxic Dose
16%
Degenerative Brain Diseases
16%
Preemptive Treatment
16%
Antiallodynic
16%
Spin Trapping
16%
Full Development
16%
Pharmacology, Toxicology and Pharmaceutical Science
Reactive Oxygen Metabolite
100%
Rat Model
100%
Neuropathic Pain
100%
Mechanical Allodynia
33%
Brain Disease
16%
Free Radical
16%
Systemic Administration
16%
Analgesic Agent
16%
Scavenger
16%
Intrathecal
16%
Systemic Treatment
16%
Nitrosobenzene
16%
Neuroscience
Neuropathic Pain
100%
Reactive Oxygen Species
100%
Spinal Nerve
33%
Allodynia
33%
Free Radical
33%
Behavior (Neuroscience)
16%
Intrathecal
16%
Brain Disease
16%