与ATM基因杂合小鼠相比，致密电离重离子辐射诱导野生型小鼠眼部白内障的相对生物学效应。

The relative biological effectiveness of densely ionizing heavy-ion radiation for inducing ocular cataracts in wild type versus mice heterozygous for the ATM gene.

作者信息

Hall Eric J, Worgul Basil V, Smilenov Lubomir, Elliston Carl D, Brenner David J

机构信息

Center for Radiological Research, Columbia University Medical Center, 630 West 168th Street, New York, NY 10032, USA.

出版信息

Radiat Environ Biophys. 2006 Jul;45(2):99-104. doi: 10.1007/s00411-006-0052-5. Epub 2006 Jun 24.

DOI:10.1007/s00411-006-0052-5

PMID:16799786

Abstract

The accelerated appearance of ocular cataracts at younger ages has been recorded in both astronauts and airline pilots, and is usually attributed to high-energy heavy ions in galactic cosmic ray radiation. We have previously shown that high-LET 1-GeV/nucleon (56)Fe ions are significantly more effective than X-rays in producing cataracts in mice. We have also shown that mice haploinsufficient for ATM develop cataracts earlier than wild-type animals, when exposed to either low-LET X-rays or high-LET (56)Fe ions. In this paper we derive quantitative estimates for the relative biological effectiveness (RBE) of high energy (56)Fe ions compared with X-rays, both for wild type and for mice haploinsufficient for ATM. There is a clear trend toward higher RBE's in haploinsufficient animals, both for low- and high-grade cataracts. Haploinsufficiency for ATM results in an enhanced sensitivity to X-rays compared with the wild type, and this enhancement appears even larger after exposure to high-LET heavy ions.

摘要

宇航员和航空公司飞行员中都有记录显示，白内障在较年轻时加速出现，这通常归因于银河宇宙射线辐射中的高能重离子。我们之前已经表明，高传能线密度1 GeV/核子的（56）Fe离子在诱导小鼠白内障方面比X射线显著更有效。我们还表明，在暴露于低传能线密度的X射线或高传能线密度的（56）Fe离子时，ATM单倍剂量不足的小鼠比野生型动物更早出现白内障。在本文中，我们得出了野生型和ATM单倍剂量不足的小鼠中，高能（56）Fe离子与X射线相比的相对生物效能（RBE）的定量估计值。无论是低度还是高度白内障，单倍剂量不足的动物中都有明显的RBE升高趋势。与野生型相比，ATM单倍剂量不足导致对X射线的敏感性增强，并且在暴露于高传能线密度的重离子后，这种增强似乎更大。

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与ATM基因杂合小鼠相比，致密电离重离子辐射诱导野生型小鼠眼部白内障的相对生物学效应。

The relative biological effectiveness of densely ionizing heavy-ion radiation for inducing ocular cataracts in wild type versus mice heterozygous for the ATM gene.

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