Published in Dose Response on June 16, 2011
Sparsely ionizing diagnostic and natural background radiations are likely preventing cancer and other genomic-instability-associated diseases. Dose Response (2006) 1.19
Estimation of median human lethal radiation dose computed from data on occupants of reinforced concrete structures in Nagasaki, Japan. Health Phys (1992) 1.05
Low-dose radiation risk extrapolation fallacy associated with the linear-no-threshold model. Hum Exp Toxicol (2008) 1.02
Lessons of Chernobyl: SNM members try to decontaminate world threatened by fallout. Part II. J Nucl Med (1987) 1.01
Meta-analysis of non-tumour doses for radiation-induced cancer on the basis of dose-rate. Int J Radiat Biol (2011) 0.95
Calculating hematopoietic-mode-lethality risk avoidance associated with radionuclide decorporation countermeasures related to a radiological terrorism incident. Dose Response (2009) 0.94
Risk estimators for radiation-induced bone marrow syndrome lethality in humans. Risk Anal (1988) 0.93
Evaluating the risk of death via the hematopoietic syndrome mode for prolonged exposure of nuclear workers to radiation delivered at very low rates. Health Phys (1998) 0.90
Systems-related facts and consequences in assessing risk from low-level irradiation. Health Phys (2011) 0.86
Residential radon appears to prevent lung cancer. Dose Response (2011) 0.95
Special issue introduction. Dose Response (2012) 0.88
Modeling DNA double-strand break repair kinetics as an epiregulated cell-community-wide (epicellcom) response to radiation stress. Dose Response (2011) 0.80
Stochastic threshold microdose model for cell killing by insoluble metallic nanomaterial particles. Dose Response (2010) 0.77
First generation stochastic gene episilencing (step1) model and applications to in vitro carcinogen exposure. Dose Response (2011) 0.76
Are some neurons hypersensitive to metallic nanoparticles? Dose Response (2010) 0.75