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RADIATION BIOLOGY OF SIMULATED RADON-DAUGHTER ALPHAS

模拟氡子体 α 的辐射生物学

基本信息

批准号：
3094337
负责人：
ERIC J HALL
金额：
$ 80.28万
依托单位：
COLUMBIA UNIV NEW YORK MORNINGSIDE
依托单位国家：
美国
项目类别：
财政年份：
1990
资助国家：
美国
起止时间：
1990-05-15 至 1995-03-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/3094337
关键词：
alpha radiation radiation carcinogenesis radiation genetics radon

项目摘要

This Program Project presents, brings together, and links five projects designed to investigate the biological effects of alpha particles with LETs simulating those emitted by the daughter products of radon. The individual projects each address this central theme from different points of view. The earliest observable biological effect of radiation in individual cells is the production of chromosome aberrations, and their production by alpha particles will be studied in detail. The special feature of this project is the attempt to quantitate the effect of precisely known numbers of alpha particles traversing single cells. This is particularly important, as it is likely that most cells at risk will be traversed by no more than one alpha particle. Since the hazard of radon in the human involves the stochastic late effects of carcinogenesis, the experimental studies focus directly on oncogenic transformation and on mutations or DNA modulations, which may be early steps involved in the carcinogenic process. A variety of cellular and molecular studies are proposed in this area. Assays for oncogenic transformation represent a powerful tool and will be used for pragmatic studies involving the possible supra-additive interaction of alpha particles with asbestos, tobacco-smoke condensate, and a variety of chemicals, as well as the study of modulating influences, such as hormones and retinoids. Mechanistic studies will be designed to identify and characterize the molecular changes that lead to the induction of malignancy. The alpha particles emitted by the radon daughters cover a range of energies, and by the time they reach the critical cells in the lung, they have LET values from about 90 to 250 keV/(mu)m. Alpha particles with this range of LET values will be generated at the Radiological Research Accelerator Facility.

本计划项目展示、汇集并链接五个项目用LET研究α粒子的生物效应模拟氡的子体产物释放出来的那些。个人每个项目都从不同的角度阐述了这一中心主题。辐射在单个细胞中最早可观察到的生物效应是染色体异常的产生，它们的产生是由阿尔法我们将对粒子进行详细研究。这个项目的特点是试图量化确切已知的阿尔法数量的影响穿过单个细胞的粒子。这一点尤其重要，因为它是很可能大多数面临风险的单元格将被不超过一个阿尔法单元遍历粒子。由于氡对人体的危害涉及到随机的滞后效应在致癌方面，实验研究直接集中在致癌方面。转化和突变或DNA调节，这可能是早期的在致癌过程中涉及的步骤。各种蜂窝和建议在这一领域开展分子研究。致癌转化的检测是一个强大的工具，将是用于涉及可能的超加法的语用研究 α粒子与石棉、烟草烟雾冷凝物和各种化学物质，以及对调节影响的研究，如作为荷尔蒙和维甲酸。机械研究将被设计用来确定并描述了导致诱导的分子变化恶毒。氡子体发射出的阿尔法粒子覆盖了能量，当它们到达肺中的关键细胞时，它们有大约90到250keV/(亩)米的阿尔法粒子 LET值的范围将在放射研究中心生成加速器设施。