Protective effects of curcumin on ischemic reperfusion of rat retina
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Ischemic reperfusion is an optic neuropathy in which photoreceptor cells may die through an apoptotic process. Free radicals are involved in the apoptotic process of ischemic reperfusion disorders. Previous research indicates that curcumin is an antioxidant found in plants which reduces neurodegenerative changes in aged animals.
The purpose of this research was to survey whether curcumin has preventive effects on ischemic reperfusion of the retina.
Twenty male Wistar rats were grouped into four (n = 5): 1, control group; 2, ischemic reperfusion group; 3, experimental group II: received 0.01% curcumin in diet (low dose) for 2 days before ischemic reperfusion; 4, experimental group III: received 0.25% curcumin in diet (high dose) for 2 days before ischemic reperfusion. The eye was enucleated and the retina separated. Routine tissue processing in transmission electron microscopy was done.
Results showed that ischemic reperfusion created major signs of injury in the photoreceptor layer such as disappearance of the outer segment, cell swelling, and karyolitic and pyknotic nuclei, but cell swelling and karyolitic nuclei were not seen after receiving a low dose of curcumin. Also, the photoreceptor layer appeared normal after receiving a high dose of curcumin, but decreased vacuolization and dark and inactive nuclei were obvious.
This study concluded that a high dose of curcumin confers a more preventive effect on retinal injury by ischemic reperfusion than a low dose.
KeywordsIschemic reperfusion Photoreceptor cell Curcumin Transmission electron microscopy Rat
The authors thank Ali Safavi for assistance with electron microscope technique.
This study was conducted under the sponsorship of the Kazerun Branch, Islamic Azad University, Kazerun, Iran.
Compliance with ethical standards
Conflict of interest
All authors declare that they have no conflict of interest.
This study followed all the guidelines for the care and use animals.
- Aldebasi YH, Aly SM, Rahmani AH (2013) Therapeutic implications of curcumin in the prevention of diabetic retinopathy via modulation of anti-oxidant activity and genetic pathway. Int J Physiol Pathophysiol Pharmacol 5:194–202Google Scholar
- Lowry OH, Rosebrough NJ, Farr AL, Randall RJ (1951) Protein measurement with the folin phenol reagent. J Biol Chem 193:265–275Google Scholar
- Patricia VT (2008) The Calam/Acmal Standards of Veterinary Care and laboratory animal welfare. Can Vet J 49:86–88Google Scholar
- Peddada KV, Brown A, Verma V, Nebbioso M (2018) Therapeutic potential of curcumin in major retinal pathologies. Int Ophthalmol 2018. https://doi.org/10.1007/s10792-018-0845-y
- Srinivasan M (1972) Effect of curcumin on blood sugar as seen in a diabetic subject. Indian J Med Sci 26:269–270Google Scholar
- Szabo ME, Droy-Lefaix MT, Doly M, Carré C, Braquet P (1991) Ischemia and reperfusion induced histologic changes in the rat retina. Demonstration of a free radical-mediated mechanism. Invest Ophthalmol Vis Sci 32:1471–1478Google Scholar
- Yang GY, Pang L, Ge HL, Tan M, Ye W, Liu XH, Huang FP, Wu DC, Che XM, Song Y, Wen R, Sun Y (2001) Attenuation of ischemia-induced mouse brain injury by SAG, a redox-inducible antioxidant protein. J Cereb Blood Flow Metab 21:722–733. https://doi.org/10.1097/00004647-200106000-00010 CrossRefGoogle Scholar