%0 Journal Article
%A Schomäcker, Klaus
%A Sudbrock, Ferdinand
%A Fischer, Thomas
%A Dietlein, Felix
%A Dietlein, Markus
%A Krapf, Philipp
%A Drzezga, Alexander
%T Airborne Radioiodine: A Comparative View of Chemical Forms in Medicine, Nuclear Industry, and Fallout Scenarios.
%J International journal of molecular sciences
%V 27
%N 2
%@ 1422-0067
%C Basel
%I Molecular Diversity Preservation International
%M DZNE-2026-00121
%P 590
%D 2026
%X Airborne iodine-131 plays a pivotal role in both nuclear medicine and nuclear safety due to its radiotoxicity, volatility, and affinity for the thyroid gland. Although the total exhaled activity after medical I-131 therapy is minimal, over 95
%K Iodine Radioisotopes: chemistry
%K Iodine Radioisotopes: analysis
%K Iodine Radioisotopes: adverse effects
%K Humans
%K Animals
%K Air Pollutants, Radioactive: analysis
%K Air Pollutants, Radioactive: chemistry
%K Air Pollutants, Radioactive: adverse effects
%K Radioactive Fallout: analysis
%K Nuclear Medicine
%K Thyroid Gland: radiation effects
%K airborne I-131 (Other)
%K iodine speciation (Other)
%K nuclear fallout (Other)
%K radioiodine therapy (Other)
%K routine reactor emissions (Other)
%K Iodine Radioisotopes (NLM Chemicals)
%K Air Pollutants, Radioactive (NLM Chemicals)
%K Iodine-131 (NLM Chemicals)
%K Radioactive Fallout (NLM Chemicals)
%F PUB:(DE-HGF)16
%9 Journal Article
%$ pmid:41596242
%R 10.3390/ijms27020590
%U https://pub.dzne.de/record/284350