Simulation–extrapolation method to address errors in atomic bomb survivor dosimetry on solid cancer and leukaemia mortality risk estimates, 1950–2003

[1]  Rory Conolly,et al.  Uncertainties in estimating health risks associated with exposure to ionising radiation , 2013, Journal of radiological protection : official journal of the Society for Radiological Protection.

[2]  Peter L Bonate,et al.  Effect of assay measurement error on parameter estimation in concentration–QTc interval modeling , 2013, Pharmaceutical statistics.

[3]  J. Benichou,et al.  The performance of functional methods for correcting non‐Gaussian measurement error within Poisson regression: corrected excess risk of lung cancer mortality in relation to radon exposure among French uranium miners , 2012, Statistics in medicine.

[4]  J. Kaiser,et al.  Independent analysis of the radiation risk for leukaemia in children and adults with mortality data (1950–2003) of Japanese A-bomb survivors , 2012, Radiation and environmental biophysics.

[5]  J. Kaiser,et al.  Dose–responses from multi-model inference for the non-cancer disease mortality of atomic bomb survivors , 2012, Radiation and environmental biophysics.

[6]  Yukiko Shimizu,et al.  Studies of the Mortality of Atomic Bomb Survivors, Report 14, 1950–2003: An Overview of Cancer and Noncancer Diseases , 2012, Radiation research.

[7]  J. Kaiser,et al.  Multi-model inference of adult and childhood leukaemia excess relative risks based on the Japanese A-bomb survivors mortality data (1950–2000) , 2011, Radiation and environmental biophysics.

[8]  R. Carroll,et al.  Methods for Estimation of Radiation Risk in Epidemiological Studies Accounting for Classical and Berkson Errors in Doses , 2011, The international journal of biostatistics.

[9]  M. Charles Effects of Ionizing Radiation: United Nations Scientific Committee on the Effects of Atomic Radiation: UNSCEAR 2006 Report, Volume 1—Report to the General Assembly, with Scientific Annexes A and B , 2010 .

[10]  C. Muirhead Exposure assessment: implications for epidemiological studies of ionizing radiation. , 2008, Radiation protection dosimetry.

[11]  D. Richardson A simple approach for fitting linear relative rate models in SAS. , 2008, American journal of epidemiology.

[12]  R. Vetter ICRP Publication 103, The Recommendations of the International Commission on Radiological Protection , 2008 .

[13]  A Guolo,et al.  A simulation‐based comparison of techniques to correct for measurement error in matched case–control studies , 2008, Statistics in medicine.

[14]  D. Pierce,et al.  Allowance for Random Dose Estimation Errors in Atomic Bomb Survivor Studies: A Revision , 2008, Radiation research.

[15]  D. G. Hoel,et al.  New Models for Evaluation of Radiation-Induced Lifetime Cancer Risk and its Uncertainty Employed in the UNSCEAR 2006 Report , 2008, Radiation research.

[16]  D. L. Preston,et al.  Solid Cancer Incidence in Atomic Bomb Survivors: 1958–1998 , 2007, Radiation research.

[17]  K. Kopecky,et al.  Childhood Thyroid Cancer, Radiation Dose from Chernobyl, and Dose Uncertainties in Bryansk Oblast, Russia: A Population-Based Case-Control Study , 2006, Radiation research.

[18]  Ethel S Gilbert,et al.  Some Statistical Implications of Dose Uncertainty in Radiation Dose–Response Analyses , 2006, Radiation research.

[19]  Raymond J. Carroll,et al.  Measurement error in nonlinear models: a modern perspective , 2006 .

[20]  Yukiko Shimizu,et al.  Effect of Recent Changes in Atomic Bomb Survivor Dosimetry on Cancer Mortality Risk Estimates , 2004, Radiation research.

[21]  P. Simpson,et al.  Statistical methods in cancer research , 2001, Journal of surgical oncology.

[22]  D A Pierce,et al.  Studies of the mortality of atomic bomb survivors. Report 12, part II. Noncancer mortality: 1950-1990. , 1999, Radiation research.

[23]  D. Richardson,et al.  A simple program to create exact person-time data in cohort analyses. , 1997, International journal of epidemiology.

[24]  R. Carroll,et al.  Segmented regression with errors in predictors: semi-parametric and parametric methods. , 1997, Statistics in medicine.

[25]  K. Kodama,et al.  A long-term cohort study of the atomic-bomb survivors. , 1996, Journal of epidemiology.

[26]  D A Pierce,et al.  Studies of the mortality of atomic bomb survivors. Report 12, Part I. Cancer: 1950-1990. , 1996, Radiation research.

[27]  J. R. Cook,et al.  Simulation-Extrapolation: The Measurement Error Jackknife , 1995 .

[28]  J. R. Cook,et al.  Simulation-Extrapolation Estimation in Parametric Measurement Error Models , 1994 .

[29]  Daniel O. Stram,et al.  The Errors-in-Variables Problem: Considerations Provided by Radiation Dose-Response Analyses of the A-Bomb Survivor Data , 1992 .

[30]  D. Pierce,et al.  Allowing for random errors in radiation dose estimates for the atomic bomb survivor data. , 1990, Radiation research.

[31]  E. Calabrese,et al.  Solid cancer incidence in atomic bomb survivors: 1958–1998. Radiat , 2015 .

[32]  Health Risks from Exposure to Low Levels of Ionizing Radiation : BEIR VII Phase 2 4 / 10 / 2011 , 2011 .

[33]  J. Valentin The 2007 Recommendations of the International Commission on Radiological Protection. ICRP publication 103. , 2007, Annals of the ICRP.

[34]  George D. Kerr,et al.  Reassessment of the atomic bomb radiation dosimetry for Hiroshima and Nagasaki : dosimetry system 2002 : report of the joint US-Japan working group , 2005 .

[35]  N. Breslow,et al.  Statistical methods in cancer research. Volume II--The design and analysis of cohort studies. , 1987, IARC scientific publications.