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Dexamethasone ameliorates retinal photic injury in albino rats
Jun Fu, Tim T. Lam,
Mark O.M. Tso
Research output
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Contribution to journal
›
Article
›
peer-review
12
Scopus citations
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Keyphrases
Rhodopsin
100%
Albino Rats
100%
Photic Injury
100%
Light Exposure
66%
Retina
50%
Macrophages
50%
Retinal pigment Epithelial
33%
Daily Dose
33%
Photoreceptor Cells
33%
Outer nuclear Layer Thickness
33%
Retinal pigment Epithelium
16%
Pathologic
16%
Subretinal Space
16%
Cell Loss
16%
Photoreceptor
16%
Pathological Changes
16%
Inner Segment
16%
Cell Count
16%
Outer Segment
16%
Cell Degeneration
16%
Fluorescent Light
16%
Vacuolation
16%
Morphometric Evaluation
16%
Lipid Peroxidation Inhibition
16%
Pharmacology, Toxicology and Pharmaceutical Science
Injury
100%
Dexamethasone
100%
Albino Rat
100%
Rhodopsin
75%
Visual Pigment
37%
Lewis Rat
12%
Cell Degeneration
12%
Veterinary Science and Veterinary Medicine
Rat
100%
Dexamethasone
100%
Macrophage
37%
Photoreceptor Cell
25%