Photocoagulation is routinely used as a major treatment method for many retinal disorders. The present study was conducted to investigate the protective effect of Grape seed extract (GSE) on reactive oxygen species produced during argon laser photocoagulation and also to explore the benefit of retinal photocoagulation over two session's argon laser compared to single session. Forty two pigmented rabbits weighted 2-2.5 Kg were used in this study. The animals were classified into three groups. The left eye for each animal was photocoagulated with 200 mW, 400 mW and 400 mw fractionated dose (FD) argon laser with and without GSE supplementation respectively. After 24 hours the retina was separated carefully, malondialdehyde level (MDA), total antioxidant capacity (TAC) and Fourier transform infrared spectroscopy (FT-IR) for retinal tissue were detected. FT-IR findings showed a positive result for GSE supplementation in reducing laser effects on the retinal tissue. Also, GSE supplementation improved the level of TAC in rabbit's retina exposed to argon laser with a concurrent decrease in MDA level. In conclusion, GSE has an extremely beneficial role in overcoming the resultant adverse biological effects of argon laser photocoagulation on retinal tissues due to its potent antioxidant properties. Results also revealed that retinal photocoagulation over two sessions was more protective for retinal tissue than single session argon laser.
Background: Applications of ultrasound in medicine for therapeutic purposes have been an accepted and beneficial use of ultrasonic biological effects for many years but exposure to ultrasound can generate oxidative stress. Aim: The aim of the present study is to investigate the changes in the function of the retina due to ultrasound exposure and the protecting role of vitamin C and/or β-carotene by using electroretinogram (ERG). Materials and Methods: Newzealand albino rabbits of both sexes classified into five groups. Group (I) used as control group. The eyes of group (II) Insonificated with continuous ultrasound waves (1.5 W/cm 2 at 2.8 MHz) for 20, 40 and 60 minutes. Group (III) was insonificated with vitamin C instillation and group (IV) insonificated after β-carotene supplementation. Group (V) was insonificated after combination of the two treatments. Results: Statistically significant reduction (P˂ 0.05) in a-waves amplitude after insonification and exceeding with increase exposure time 20, 40 and 60 min was observed. The amplitudes of a-wave after treatment with topical and supplemented or both remained significantly larger compared with those exposure to US only but its latency lower than that found in insonified groups. In addition, the b-waves were found to follow the same behavior as a-wave. Conclusion: The study recommended considering oral β-carotene antioxidant in combination with vitamin C eye drops as a medical tool and personal protective in ultrasound equipment in provide safety.
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