Health Effects of High Radon Environments in Central Europe: Another Test for the LNT Hypothesis?

Klaus Becker
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During the years 1945 to 1989, this area was one of the world's most important uranium mining areas, providing the former Soviet Union with 300,000 tons of uranium for its military programs. Most data related to health effects of radon and other carcinogenic agents on miners and residents became available only during the years after German reunification. Many of the studies are still unpublished, or more or less internal reports.By now, substantial studies have been performed on the previously unavailable data about the miners and the population, providing valuable insights that are, to a large degree, in disagreement with the opinion of various international bodies assuming an increase of lung cancer risk in the order of 10% for each 100 Bq/m(3) (or doubling for 1000 Bq/m(3)), even for small residential radon concentrations. At the same time, other studies focusing on never-smokers show little or no effects of residential radon exposures. Experiments in medical clinics using radon on a large scale as a therapeutic against various rheumatic and arthritic disease demonstrated in randomized double-blind studies the effectiveness of such treatments.The main purpose of this review is to critically examine, including some historical references, recent results primarily in three areas, namely the possible effects of the inhalation of very high radon concentrations on miners; the effect of increased residential radon concentrations on the population; and the therapeutic use of radon. With many of the results still evolving and/or under intense discussion among the experts, more evidence is emerging that radon, which has been inhaled at extremely high concentrations in the multimillion Bq/m(3) range by many of older miners (however, with substantial confounders, and large uncertainties in retrospective dosimetry), was perhaps an important but not the dominating factor for an increase in lung cancer rates. Other factors such as smoking, inhalation of quartz and mineral dust, arsenic, nitrous gases, etc. are likely to be more serious contributors to increased miner lung cancer rates. An extrapolation of miner data to indoor radon situations is not feasible.Concerning indoor radon studies, the by far dominating effect of smoking on the lung cancer incidence makes the results of some studies, apparently showing a positive dose-response relationship, questionable. According to recent studies in several countries, there are no, or beneficial, residential radon effects below about 600 to 1000 Bq/m(3) (the extensive studies in the U.S., in particular by B. Cohen, and the discussions about these data, will not be part of this review, because they have already been discussed in detail in the U.S. literature). As a cause of lung cancer, radon seems to rank - behind active and passive smoking, and probably also air pollution in densely populated and/or industrial areas (diesel exhaust soot, etc.) - as a minor contributor in cases of extremely high residential radon levels, combined with heavy smoking of the residents.As demonstrated in an increasing number of randomized double-blind clinical studies for various painful inflammatory joint diseases such as rheumatism, arthritic problems, and Morbus Bechterew, radon treatments are beneficial, with the positive effect lasting until at least 6 months after the normally 3-week treatment by inhalation or bathes. Studies on the mechanism of these effects are progressing. In other cases of extensive use of radon treatment for a wide spectrum of various diseases, for example, in the former Soviet Union, the positive results are not so well established. However, according to a century of radon treatment experience (after millenniums of unknown radon therapy), in particular in Germany and Austria, the positive medical effects for some diseases far exceed any potential detrimental health effects.The total amount of available data in this field is too large to be covered in a brief review. Therefore, less known - in particular recent - work from Central Europe has been analyzed in an attempt to summarize new developments and trends. This includes cost/benefit aspects of radon reduction programs. As a test case for the LNT (linear non-threshold) hypothesis and possible biopositive effects of low radiation exposures, the data support a nonlinear human response to low and medium-level radon exposures.</p>","PeriodicalId":74315,"journal":{"name":"Nonlinearity in biology, toxicology, medicine","volume":"1 1","pages":"3-35"},"PeriodicalIF":0.0000,"publicationDate":"2003-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1080/15401420390844447","citationCount":"45","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Nonlinearity in biology, toxicology, medicine","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1080/15401420390844447","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 45

Abstract

Among the various "natural laboratories" of high natural or technical enhanced natural radiation environments in the world such as Kerala (India), Brazil, Ramsar (Iran), etc., the areas in and around the Central European Ore Mountains (Erzgebirge) in the southern parts of former East Germany, but also including parts of Thuringia, northern Bohemia (now Czech Republic), and northeastern Bavaria, are still relatively little known internationally.Although this area played a central role in the history of radioactivity and radiation effects on humans over centuries, most of the valuable earlier results have not been published in English or quotable according to the current rules in the scientific literature and therefore are not generally known internationally. During the years 1945 to 1989, this area was one of the world's most important uranium mining areas, providing the former Soviet Union with 300,000 tons of uranium for its military programs. Most data related to health effects of radon and other carcinogenic agents on miners and residents became available only during the years after German reunification. Many of the studies are still unpublished, or more or less internal reports.By now, substantial studies have been performed on the previously unavailable data about the miners and the population, providing valuable insights that are, to a large degree, in disagreement with the opinion of various international bodies assuming an increase of lung cancer risk in the order of 10% for each 100 Bq/m(3) (or doubling for 1000 Bq/m(3)), even for small residential radon concentrations. At the same time, other studies focusing on never-smokers show little or no effects of residential radon exposures. Experiments in medical clinics using radon on a large scale as a therapeutic against various rheumatic and arthritic disease demonstrated in randomized double-blind studies the effectiveness of such treatments.The main purpose of this review is to critically examine, including some historical references, recent results primarily in three areas, namely the possible effects of the inhalation of very high radon concentrations on miners; the effect of increased residential radon concentrations on the population; and the therapeutic use of radon. With many of the results still evolving and/or under intense discussion among the experts, more evidence is emerging that radon, which has been inhaled at extremely high concentrations in the multimillion Bq/m(3) range by many of older miners (however, with substantial confounders, and large uncertainties in retrospective dosimetry), was perhaps an important but not the dominating factor for an increase in lung cancer rates. Other factors such as smoking, inhalation of quartz and mineral dust, arsenic, nitrous gases, etc. are likely to be more serious contributors to increased miner lung cancer rates. An extrapolation of miner data to indoor radon situations is not feasible.Concerning indoor radon studies, the by far dominating effect of smoking on the lung cancer incidence makes the results of some studies, apparently showing a positive dose-response relationship, questionable. According to recent studies in several countries, there are no, or beneficial, residential radon effects below about 600 to 1000 Bq/m(3) (the extensive studies in the U.S., in particular by B. Cohen, and the discussions about these data, will not be part of this review, because they have already been discussed in detail in the U.S. literature). As a cause of lung cancer, radon seems to rank - behind active and passive smoking, and probably also air pollution in densely populated and/or industrial areas (diesel exhaust soot, etc.) - as a minor contributor in cases of extremely high residential radon levels, combined with heavy smoking of the residents.As demonstrated in an increasing number of randomized double-blind clinical studies for various painful inflammatory joint diseases such as rheumatism, arthritic problems, and Morbus Bechterew, radon treatments are beneficial, with the positive effect lasting until at least 6 months after the normally 3-week treatment by inhalation or bathes. Studies on the mechanism of these effects are progressing. In other cases of extensive use of radon treatment for a wide spectrum of various diseases, for example, in the former Soviet Union, the positive results are not so well established. However, according to a century of radon treatment experience (after millenniums of unknown radon therapy), in particular in Germany and Austria, the positive medical effects for some diseases far exceed any potential detrimental health effects.The total amount of available data in this field is too large to be covered in a brief review. Therefore, less known - in particular recent - work from Central Europe has been analyzed in an attempt to summarize new developments and trends. This includes cost/benefit aspects of radon reduction programs. As a test case for the LNT (linear non-threshold) hypothesis and possible biopositive effects of low radiation exposures, the data support a nonlinear human response to low and medium-level radon exposures.

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中欧高氡环境对健康的影响:LNT假说的另一个检验?
在世界上喀拉拉邦(印度)、巴西、拉姆萨尔(伊朗)等各种高自然或技术增强自然辐射环境的“自然实验室”中,前东德南部的中欧矿石山(Erzgebirge)及其周围地区,以及图林根州、波希米亚北部(现捷克共和国)和巴伐利亚东北部的部分地区,在国际上仍然相对鲜为人知。尽管这一领域在几个世纪以来的放射性和辐射对人类的影响的历史上发挥了核心作用,但大多数有价值的早期结果都没有以英文发表,也没有按照科学文献中的现行规则引用,因此在国际上并不普遍。在1945年到1989年间,这个地区是世界上最重要的铀矿开采地区之一,为前苏联的军事计划提供了30万吨铀。有关氡和其他致癌物剂对矿工和居民健康影响的大多数数据是在德国统一后的几年中才得到的。许多研究尚未发表,或多或少是内部报告。到目前为止,已经对以前无法获得的关于矿工和人口的数据进行了大量的研究,提供了有价值的见解,这些见解在很大程度上与各种国际机构的观点不一致,这些机构假设每100 Bq/m(3)增加10%的肺癌风险(或1000 Bq/m(3)增加一倍),即使是很小的住宅氡浓度。与此同时,其他针对从不吸烟者的研究表明,住宅氡暴露的影响很小或没有影响。在医疗诊所大规模使用氡治疗各种风湿性和关节炎疾病的实验在随机双盲研究中证明了这种治疗的有效性。这次审查的主要目的是严格审查最近主要在三个领域的结果,包括一些历史参考资料,即吸入非常高浓度的氡对矿工可能产生的影响;住宅氡浓度增加对人口的影响;以及氡的治疗用途。由于许多结果仍在发展和/或在专家之间进行激烈的讨论,越来越多的证据表明,许多老年矿工吸入的氡浓度极高,达到数百万Bq/m(3)范围(然而,存在大量混杂因素,回顾性剂量测定中存在很大的不确定性),可能是肺癌发病率增加的一个重要因素,但不是主要因素。其他因素,如吸烟、吸入石英和矿物粉尘、砷、氮气体等,可能是导致矿工肺癌发病率上升的更严重因素。将矿工数据外推到室内氡情况是不可行的。在室内氡的研究中,吸烟对肺癌发病率的主导作用使得一些研究的结果(明显显示出正的剂量-反应关系)值得怀疑。根据几个国家最近的研究,在600至1000 Bq/m(3)以下没有或有益的住宅氡影响(美国的广泛研究,特别是B. Cohen的研究,以及对这些数据的讨论,将不在本综述的一部分,因为它们已经在美国文献中进行了详细讨论)。作为肺癌的一个原因,氡似乎排在主动和被动吸烟之后,可能也排在人口稠密和/或工业区的空气污染(柴油废气烟尘等)之后,在居民的氡水平极高的情况下,加上居民大量吸烟,氡似乎是一个次要因素。越来越多针对各种疼痛性炎症性关节疾病(如风湿病、关节炎问题和Morbus Bechterew)的随机双盲临床研究表明,氡治疗是有益的,在通常的3周吸入或沐浴治疗后,其积极效果至少持续到6个月。对这些作用机制的研究正在进行中。在广泛使用氡治疗各种各样疾病的其他情况下,例如在前苏联,积极的结果并没有得到很好的证实。然而,根据一个世纪的氡治疗经验(经过数千年未知的氡治疗),特别是在德国和奥地利,对某些疾病的积极医疗效果远远超过任何潜在的有害健康影响。这一领域现有数据的总量太大,无法在一篇简短的综述中涵盖。因此,对中欧鲜为人知的工作,特别是最近的工作进行了分析,以期总结新的发展和趋势。这包括减少氡规划的成本/效益方面。 作为LNT(线性非阈值)假说和低辐射照射可能产生的生物正效应的测试案例,这些数据支持人类对低和中水平氡照射的非线性反应。
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