Ratan Bhardwaj scite author profile

The effect of several antioxidants and cysteine‐elevating precursor drugs (prodrugs) was tested on lens damage occurring after in vitro exposure to low levels of 60Co‐y‐irradiation, to simulate in vitro the exposure to radiation in vivo of (1) astronauts (2) jet crews (3) military radiation accident personnel. Tocopherol (100 μM), ascorbic acid (1mM), R‐α‐lipoic acid (1mM), and taurine (0.5 mM) protected against radiation‐ associated protein leakage. MTCA and ribocysteine protected lenses against opacification, LDH and protein leakage, indicating that antioxidants and prodrugs of cysteine appear to offer protection against lens damage caused by low level radiation.

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Modelling cortical cataractogenesis XVIII. In vitro diabetic cataract reduction by venoruton

Kilic

Bhardwaj

Trevithick

1996

Acta Ophthalmologica Scandinavica

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The effect of a novel flavonoid, venoruton (a mixture of mono-, di-, tri- and tetrahydroxyethylrutosides) has been investigated in healthy rat lenses and compared with diabetic cataract modelled in vitro. One mM venoruton was added to medium simulating healthy and diabetic conditions for the incubated lenses; damage was followed by either stereoscopic photography of the lenses under a Cooperative Cataract Research Group operating microscope or with our recently developed method: the leakage of lactate dehydrogenase (LDH) into the lens culture media. The increased LDH activity in the medium and observable development of the opacity were correlated with cell damage, which has been found to be associated with globular degeneration and cataract formation. The extent of opacification and LDH release is reduced if 1 mM venoruton is included in the medium. The protective effect may be related to antioxidant activity against reactive oxygen species: decreased luminol luminescence was shown after venoruton addition to either superoxide-generating hypoxanthine plus xanthine oxidase, or hydrogen peroxide.

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Ratan Bhardwaj

Modelling Cortical Cataractogenesis 22: Is in vitro Reduction of Damage in Model Diabetic Rat Cataract by Taurine Due to Its Antioxidant Activity?

Antioxidants and cataract: (Cataract induction in space environment and application to terrestrial aging cataract)

Modelling cortical cataractogenesis XVIII. In vitro diabetic cataract reduction by venoruton

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