Vincent E. Giuliano, Applied Physicist, Independent longevity researcher-writer and consultant. He is a follower and interpreter of current longevity-related research and has developed an in-depth and dynamic grasp of the advanced areas of science involved - including cell and molecular biology, genomics, epigenomics, stem cells, metabolemics, nutritional science and age-related diseases. MULTIFACTORIAL HORMESIS. PART 1. AN IMPORTANT CONTEXT FOR HEALTH AND LONGEVITY ON THE ROAD TO A GRAND UNIFIED THEORY (GUT) FOR BIOLOGY.
Howard Cork Hayden, Emeritus Physics Professor, University of Connecticut: The article in Nuclear News (Sept. 17, 2017) by Jerry M. Cuttler and William H. Hannum about the linear-no-threshold (LNT) model shows that not only are the no-threshold and collective dose aspects wrong, but that low-dose radiation has beneficial effects. For almost all cases, the Linear No-Threshold and Collective Dose radiation safety guidelines are based entirely on the notion that exposure is an additive quantity. It is not. To read the article by Dr. Cuttler and Dr. Hannum use the search box on this website and enter "Cuttler Hannum LNT".
Jerry Cuttler, Ph.D. Nuclear Sciences and Engineering, past president of Canadian Nuclear Society. William Hannum, Ph.D. retired Argonne National Laboratory, (reactor physics and safety, former Deputy Director General of the OECD Nuclear Energy Agency, Paris, France): Current EPA regulations are based on the linear no-threshold (LNT) dose-response model. These regulations have long been considered to be conservative, and it is widely recognized that they are excessively restrictive. There is emerging evidence that the effects of low or even moderate levels of ionizing radiation are in fact beneficial. Researchers are now postulating that rather than being a simple cause of additional cell damage, the principal effect of low-level radiation is to stimulate the body’s natural defense mechanisms — for instance, against cancer cells. To see discussion on this article go to the search box on this website and enter "Hayden LNT".
Howard Cork Hayden, Emeritus Physics Professor, University of Connecticut: The most common question people bring up with respect to nuclear power is, “What do you do with the waste?” The answer requires discussion of three broad topics: the nature of uranium fission, radiation shielding, and the relationship between radiation and health. The first section is about the nature and the quantity of the high-level radioactive byproducts of uranium fission. This so-called “waste” from a nuclear reactor is different from the waste from burning coal. The second section discusses the nature of shielding and its effectiveness. The third section presents a simple mathematical proof that there is nothing inherently additive about radiation exposure.