Tatjana Paunesku1, Aleksandra Stevanović2, Jelena Popović1, Gayle E Woloschak1. 1. Department of Radiation Oncology, Northwestern University, Chicago, IL, USA. 2. Multidisciplinary Studies of History and Philosophy of Natural Sciences and Technology, University of Belgrade, Belgrade, Serbia.
Abstract
Purpose: Carcinogenic effects of radiation are often assumed to be universally understood, more often than, for example, carcinogenic effects of many different chemicals. This in turn leads to an assumption that any dose of radiation, delivered at any dose rate, poses a serious health challenge. This remains an issue of dispute and low dose radiation research is focused on understanding whether these exposures contribute to cancer incidence. This review is focused on the low linear energy transfer (low LET) radiation exposures for which the data is the most abundant in recent years. Materials and methods: Review of the literature between 2008 and today, highlighting some of the most diverse studies in low dose research. Results: Low dose and low dose rate, low LET ionizing radiation animal studies suggest that the effects of exposure very much depend on animal genotype and health status.Conclusions: Only the integration of all of the data from different models and studies will lead to a fuller understanding of low dose radiation effects. Therefore, we hope to see an increase in international archival efforts and exchange of raw data information opening the possibilities for new types of meta analyses.
Purpose: Carcinogenic effects of radiation are often assumed to be universally understood, more often than, for example, carcinogenic effects of many different chemicals. This in turn leads to an assumption that any dose of radiation, delivered at any dose rate, poses a serious health challenge. This remains an issue of dispute and low dose radiation research is focused on understanding whether these exposures contribute to cancer incidence. This review is focused on the low linear energy transfer (low LET) radiation exposures for which the data is the most abundant in recent years. Materials and methods: Review of the literature between 2008 and today, highlighting some of the most diverse studies in low dose research. Results: Low dose and low dose rate, low LET ionizing radiation animal studies suggest that the effects of exposure very much depend on animal genotype and health status.Conclusions: Only the integration of all of the data from different models and studies will lead to a fuller understanding of low dose radiation effects. Therefore, we hope to see an increase in international archival efforts and exchange of raw data information opening the possibilities for new types of meta analyses.
Entities:
Keywords:
Radiation-induced tumors; low dose effects; low dose rate; low linear energy transfer (low LET)
Authors: Evelyn Fessler; Eva-Maria Eckl; Sabine Schmitt; Igor Alves Mancilla; Matthias F Meyer-Bender; Monika Hanf; Julia Philippou-Massier; Stefan Krebs; Hans Zischka; Lucas T Jae Journal: Nature Date: 2020-03-04 Impact factor: 49.962
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