INIS
production
100%
oxygen
100%
mitochondria
100%
losses
100%
apoptosis
100%
ischemia
100%
fission
100%
mice
66%
injuries
66%
glucose
50%
diseases
33%
pathogenesis
33%
rna
33%
interference
33%
capillaries
33%
knock-out reactions
16%
proteins
16%
humans
16%
genetics
16%
modulation
16%
inhibition
16%
dynamics
16%
phosphorylation
16%
vision
16%
retina
16%
streptozotocin
16%
Pharmacology, Toxicology and Pharmaceutical Science
Reactive Oxygen Metabolite
100%
Injury
100%
Apoptosis
100%
Retinopathy
100%
Glucose
75%
Diseases
50%
Pathogenesis
50%
Mouse
50%
RNA
50%
Mouse Model
50%
Caspase 3
50%
Knockout Mouse
25%
Diabetes Mellitus
25%
Diabetic Retinopathy
25%
Antiporter
25%
Streptozotocin
25%
Insulin Dependent Diabetes Mellitus
25%
Keyphrases
Reactive Oxygen Species Production
100%
Apoptosis
100%
Epac1
100%
Pericyte Loss
100%
Mitochondrial Fission
100%
Ischemic Retinopathy
33%
High Glucose
25%
Pericytes
25%
Retinal Pericytes
25%
RNA Interference
16%
Ischemic Injury
16%
Caspase-3 Activation
16%
Capillary Degeneration
16%
Pathogenic Mechanism
8%
Endothelial Cells
8%
Cellular Mechanisms
8%
Molecular Mechanism
8%
Knock-in Mouse Model
8%
Mouse Model
8%
Ischemia-reperfusion Injury
8%
Phosphorylation
8%
Diabetes
8%
Mitochondrial Dysfunction
8%
Pharmacological Approaches
8%
Diabetic Retinopathy
8%
Therapeutic Target
8%
Exchange Protein Directly Activated by cAMP
8%
Type I Diabetes
8%
Streptozotocin
8%
Type 1 Diabetes Mellitus (T1DM)
8%
Pharmacological Inhibitors
8%
Genomic Deletion
8%
Mitochondrial Dynamics
8%
Radial Peripapillary Capillary
8%
Mouse Retina
8%
Retinal Vasculature
8%
Dynamin-related Protein 1 (Drp1)
8%
Neuroscience
Apoptosis
100%
Reactive Oxygen Species
100%
Retinal Disease
100%
Mitochondrial Fission
100%
Glucose
75%
RNA Interference
50%
Caspase 3
50%
Diabetes
50%
Diabetic Retinopathy
25%
Cyclic Adenosine Monophosphate
25%
Phosphorylation
25%
Retina
25%
Antiporter
25%
Mitochondrial Dynamics
25%
Streptozotocin
25%
Gene Deletion
25%
Medicine and Dentistry
Mitochondrial Dynamics
12%