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1,395
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The linear no-threshold relationship is inconsistent with radiation biologic and experimental data.
Author(s):
M Tubiana-Hulin
,
Joseph M L Kaminski
,
Albert Yang
,
Ludwig Feinendegen
Publication date:
2009-03-31
Journal:
Radiology
Keywords:
Air Pollution, Radioactive
,
analysis
,
Body Burden
,
Dose-Response Relationship, Radiation
,
Environmental Exposure
,
statistics & numerical data
,
Evidence-Based Medicine
,
Humans
,
Incidence
,
Linear Models
,
Neoplasms, Radiation-Induced
,
epidemiology
,
Proportional Hazards Models
,
Radiation Dosage
,
Reproducibility of Results
,
Risk Assessment
,
methods
,
Sensitivity and Specificity
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Author and article information
Journal
PubMed ID::
19332842
PMC ID::
2663584
DOI::
10.1148/radiol.2511080671
ScienceOpen disciplines:
Chemistry
Keywords:
Air Pollution, Radioactive
,
analysis
,
Body Burden
,
Dose-Response Relationship, Radiation
,
Environmental Exposure
,
statistics & numerical data
,
Evidence-Based Medicine
,
Humans
,
Incidence
,
Linear Models
,
Neoplasms, Radiation-Induced
,
epidemiology
,
Proportional Hazards Models
,
Radiation Dosage
,
Reproducibility of Results
,
Risk Assessment
,
methods
,
Sensitivity and Specificity
Data availability:
ScienceOpen disciplines:
Chemistry
Keywords:
Air Pollution, Radioactive
,
analysis
,
Body Burden
,
Dose-Response Relationship, Radiation
,
Environmental Exposure
,
statistics & numerical data
,
Evidence-Based Medicine
,
Humans
,
Incidence
,
Linear Models
,
Neoplasms, Radiation-Induced
,
epidemiology
,
Proportional Hazards Models
,
Radiation Dosage
,
Reproducibility of Results
,
Risk Assessment
,
methods
,
Sensitivity and Specificity
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