TsverkovaM, ZinetsN. 2022. Chernobyl power plant captured by Russian forces: Ukrainian official. Available at https://www.reuters.com/world/europe/chernobyl-power-plant-captured-by-russian-forces-ukrainian-official-2022-02-24 (accessed March9, 2022).
2.
RegulyE, GraneyE. 2022. Europeans scrambling to find iodide pills amid fears of nuclear blast in Ukraine: potassium iodide pills are suddenly in high demand across Europe as fears of radiation poisoning from a nuclear attack or accident intensify. Available at www.theglobeandmail.com/world/article-europeans-on-the-hunt-for-iodide-pills-under-threat-of-nuclear-blast (accessed March9, 2022).
3.
CalmaJ. 2022. Ukraine's nuclear power plants are at ‘unprecedented’ risk as fighting continues. Available at www.theverge.com/2022/3/2/22958029/russia-invasion-unprecedented-risk-nuclear-power-plants (accessed March9, 2022).
4.
Anonymous. 2016. Frequently asked questions on potassium iodide (KI). Available at https://www.fda.gov/drugs/bioterrorism-and-drug-preparedness/frequently-asked-questions-potassium-iodide-ki (accessed March9, 2022).
5.
Anonymous. 2022. Potassium iodide (KI). Available at https://remm.hhs.gov/potassiumiodide.htm (accessed March9, 2022).
6.
National Center for Environmental Health (NCEH). 2018. Potassium iodide (KI). Available at https://www.cdc.gov/nceh/radiation/emergencies/ki.htm (accessed March9, 2022).
7.
World Health Organization. 2017. Iodine Thyroid Blocking: Guidelines for Use in Planning for and Responding to Radiological and Nuclear Emergencies. World Health Organization, Geneva.
8.
ToftDJ, SchneiderAB2022 Use of potassium iodide in a nuclear emergency. In: Shifrin AL (ed) Endocrine Emergencies. Elsevier, Philadelphia, PA, pp 329–337.
9.
LeungAM, BauerAJ, BenvengaS, BrennerAV, HennesseyJV, HurleyJR, MilanSA, SchneiderAB, SundaramK, ToftDJ. 2017. American Thyroid Association scientific statement on the use of potassium iodide ingestion in a nuclear emergency. Thyroid, 27:865–877.
10.
NaumanJ, WolffJ. 1993. Iodide prophylaxis in Poland after the Chernobyl reactor accident: benefits and risks. Am J Med, 94:524–532.
11.
LinetMS, KazziZ, PaulsonJA. 2018. Pediatric considerations before, during, and after radiological or nuclear emergencies. Pediatrics, 142:e20183001.
12.
RonE. 2007. Thyroid cancer incidence among people living in areas contaminated by radiation from the Chernobyl accident. Health Phys, 93:502–511.
13.
International Atomic Energy Agency Frequently asked Chernobyl questions. 2016, Available at https://www.iaea.org/newscenter/focus/chernobyl/faqs (accessed March22, 2022).
14.
TuraiI. 2016. Thyroid blocking policy in Hungary and clarification of terminology in the light of recommendations by international organisations. Radiat Prot Dosimetry, 171:57–60.
EderS, HermannC, LamkowskiA, KinoshitaM, YamamotoT, AbendM, ShinomiyaN, PortM, RumpA. 2020. A comparison of thyroidal protection by stable iodine or perchlorate in the case of acute or prolonged radioiodine exposure. Arch Toxicol, 94:3231–3247.
17.
BenderitterM, PourcherT, MartinJC, DarcourtJ, GuigonP, Caire-MaurisierF, PechA, LebsirD, RosiqueC, GuglielmiJ, RebièreF, TackK, PhanG, LestaevelP, SouidiM, JourdainJR. 2018. Do multiple administrations of stable iodine protect population chronically exposed to radioactive iodine: what is PRIODAC research program (2014-22) teaching us?. Radiat Prot Dosimetry, 182:67–79.
LebsirD, ManensL, GrisonS, LestaevelP, EbrahimianT, SuhardD, PhanG, DublineauI, TackK, BenderitterM, PechA, JourdainJR, SouidiM. 2018. Effects of repeated potassium iodide administration on genes involved in synthesis and secretion of thyroid hormone in adult male rat. Mol Cell Endocrinol, 474:119–126.
20.
PhanG, ChioukhR, SuhardD, LegrandA, MoulinC, SontagT, RebièreF, Bouvier-CapelyC, AgarandeM, Renaud-SalisV, JourdainJR. 2018. Repeated KI prophylaxis in case of prolonged exposure to iodine radioisotopes: pharmacokinetic studies in adult rats. Pharm Res, 35:227.
21.
National Research Council 2004 Distribution and Administration of Potassium Iodide in the Event of a Nuclear Incident. Chapter 3 potential exposure to radioactive iodine. The National Academies Press, Washington, DC. Available at https://www.nap.edu/catalog/10868/distribution-and-administration-of-potassium-iodide-in-the-event-of-a-nuclear-incident (accessed March9, 2022).
22.
HigginbothamA. 2019. The Untold Story of the World's Greatest Nuclear Disaster. Simon & Schuster, New York, NY.
23.
BusbyC. 2013. Worse than Chernobyl: the inner threat of Fukushima crisis. Available at https://www.rt.com/op-ed/chernobyl-fukushima-crisis-catastrophe-715 (accessed March9, 2022).
24.
MidorikawaS, OhtsuruA. 2022. Young people's perspectives of thyroid cancer screening and its harms after the nuclear accident in Fukushima Prefecture: a questionnaire survey indicating opt-out screening strategy of the thyroid examination as an ethical issue. BMC Cancer, 22:235.
25.
OughtonD. 2016. Societal and ethical aspects of the Fukushima accident. Integr Environ Assess Manag, 12:651–653.
26.
TakebayashiY, LyamzinaY, SuzukiY, MurakamiM. 2017. Risk perception and anxiety regarding radiation after the 2011 Fukushima nuclear power plant accident: a systematic qualitative review. Int J Environ Res Public Health, 14:1306.
27.
LiutskoL, OughtonD, SarukhanA, Cardis E; SHAMISENConsortium. 2021. The SHAMISEN recommendations on preparedness and health surveillance of populations affected by a radiation accident. Environ Int, 146:106278.
28.
OhbaT, LiutskoL, SchneiderT, Francesc BarquineroJ, CrouaïlP, FattibeneP, KesminieneA, LaurierD, SarukhanA, SkuterudL, TanigawaK, TomkivY, CardisE. 2021. The SHAMISEN project: challenging historical recommendations for preparedness, response and surveillance of health and well-being in case of nuclear accidents: lessons learnt from Chernobyl and Fukushima. Environ Int, 146:106200.
