Airborne Radioiodine: A Comparative View of Chemical Forms in Medicine, Nuclear Industry, and Fallout Scenarios
Klaus Schomäcker, Ferdinand Sudbrock, Thomas Fischer, Felix Dietlein, Markus Dietlein, Philipp Krapf, Alexander Drzezga

TL;DR
This paper compares how iodine-131 behaves in the air in medical, nuclear, and accident scenarios, showing that its chemical form determines how it spreads and affects health.
Contribution
The novelty is a systematic comparison of airborne radioiodine speciation across medical, routine nuclear, and accident scenarios, identifying chemical form as the unifying determinant of volatility and dose.
Findings
Exhaled iodine-131 in medicine is predominantly in organic forms, reflecting metabolic processes.
Severe nuclear accidents release volatile iodine species like [131I]I2 and [131I]CH3I, which spread widely and increase thyroid exposure.
Chemical speciation governs iodine's volatility, transport, and bioavailability in all scenarios.
Abstract
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% of this activity appears in volatile organic forms, which evade standard filtration and reflect metabolic pathways of iodine turnover. Our experimental work in patients and mice confirms the metabolic origin of these species, modulated by thyroidal function. In nuclear reactor environments, both under routine operation and during accidents, organic iodides such as [131I]CH3I have also been identified as major airborne components, often termed “penetrating iodine” due to their low adsorption to conventional filters. This review compares the molecular speciation, environmental persistence, and dosimetric impact of airborne I-131 across clinical,…
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Taxonomy
TopicsRadioactive contamination and transfer · Thyroid Cancer Diagnosis and Treatment · Effects of Radiation Exposure
