Estrogen Protects against Radiation-Induced Cataractogenesis

Dynlacht, Joseph R.; Valluri, Shailaja; Lopez, Jennifer T.; Greer, Falon; DesRosiers, Colleen; Caperell-Grant, Andrea; Mendonca, Marc S.; Bigsby, Robert M.

doi:10.1667/rr1416.1

Cited by 29 publications

(19 citation statements)

References 46 publications

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“…Not only the spectrum of miRNA expressed in malignant cells is significantly different from that of normal counterpart cells but also miRNA expression profiles better classify poorly differentiated tumors as compared with the mRNA (EST)-based classifier [21]. Given this point, we hypothesize that the miRNA fingerprints in patients who are sensitive to radiotherapy are different from those who are resistant to radiotherapy.…”

Section: Discussionmentioning

confidence: 99%

Expression and function of miRNA in postoperative radiotherapy sensitive and resistant patients of non-small cell lung cancer

et al. 2011

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Section: Discussionmentioning

confidence: 99%

Expression and function of miRNA in postoperative radiotherapy sensitive and resistant patients of non-small cell lung cancer

et al. 2011

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“…More recently, in a series of papers, the contribution of gender and sex hormones to the development of radiation cataract, and the possibility of both negative and positive radioprotective effects of oestrogen in Co-60 gamma-irradiated rat eyes has been described (Dynlacht et al, 2006(Dynlacht et al, , 2008Henderson et al, 2009).…”

Section: Animal Models Of Radiation Cataractmentioning

confidence: 99%

Radiation cataract

Kleiman

2012

Ann ICRP

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Until very recently, ocular exposure guidelines were based on the assumption that radiation cataract is a deterministic event requiring threshold doses generally greater than 2 Gy. This view was, in part, based on older studies which generally had short follow-up periods, failed to take into account increasing latency as dose decreased, had relatively few subjects with doses below a few Gy, and were not designed to detect early lens changes. Newer findings, including those in populations exposed to much lower radiation doses and in subjects as diverse as astronauts, medical workers, atomic bomb survivors, accidentally exposed individuals, and those undergoing diagnostic or radiotherapeutic procedures, strongly suggest dose-related lens opacification at significantly lower doses. These observations resulted in a recent re-evaluation of current lens occupational exposure guidelines, and a proposed lowering of the presumptive radiation cataract threshold to 0.5 Gy/year and the occupational lens exposure limit to 20 mSv/year, regardless of whether received as an acute, protracted, or chronic exposure. Experimental animal studies support these conclusions and suggest a role for genotoxicity in the development of radiation cataract. Recent findings of a low or even zero threshold for radiation-induced lens opacification are likely to influence current research efforts and directions concerning the cellular and molecular mechanisms underlying this pathology. Furthermore, new guidelines are likely to have significant implications for occupational and/or accidental exposure, and the need for occupational eye protection (e.g. in fields such as interventional medicine).

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“…L-carnitine, melatonin, Ginkgo biloba, vitamin E, estrogen, metalloporphyrin and verapamil protected irradiation-induced cataract development by virtue of their antioxidant properties (2,11,12,16,17,19,22,23,40,41). The investigators measured MDA and the antioxidant enzyme levels such as SOD, catalase, total antioxidant in the lens tissues and graded the lens opacification.…”

Section: Discussionmentioning

confidence: 99%