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Test Method for Low-Level Analysis of Iodine Radioisotopes in Water
, 2008 D19 Committee
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[Treatment with iodine radioisotopes of benign thyroid disease].
Ugeskrift for laeger, 2000 L Hegedüs
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The Radiopharmaceutical Chemistry of the Radioisotopes of Iodine
2019Radioisotopes of iodine have been incorporated into a wide variety of radiopharmaceuticals ranging from small, low molecular weight compounds to large molecules like antibodies. Because of the routine availability of radioisotopes of iodine with different nuclear decay properties, radioiodination is an attractive strategy because the same chemistry can
Ganesan Vaidyanathan +1 more
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The Sorption of Technetium and Iodine Radioisotopes by Various Minerals
Nuclear Technology, 1980Radioisotopes of technetium and iodine, elements that are present in reactor wastes, are strongly sorbed (100 ≲ KD ≲ 2000) from aqueous solutions by several naturally occurring minerals (bournonite...
R. Strickert, A. M. Friedman, S. Fried
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Production and Clinical Development of a New Ideal Radioisotope of Iodine — Iodine-123
1971The use of radioiodine for thyroid tests still comprises some 57 % of the proce-dures performed in Nuclear Medicine Laboratories according to the recent Stanford Research Institute Survey conducted by the Bureau for Radiological Health [1]. Wide diagnostic use of Iodine-131 for thyroid tests results in what has been considered a tolerable absorbed ...
H. N. Wellman, V. J. Sodd, J. F. Mack
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Radioisotopes of iodine and xenon of masses 120 and 121
Journal of Inorganic and Nuclear Chemistry, 1965Abstract A new 43 ± 3 min 120 Xe has been produced by spallation of I with 340 MeV protons. New values for the half-lives of 120 I, 121 Xe and 121 I have been determined. Positron and gamma ray energies have been measured.
F.D.S. Butement, S.M. Qaim
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Purification of recovered tellurium dioxide for re-use in iodine radioisotope production
Applied Radiation and Isotopes, 2001In the production of radioiodine via charged particle activation of isotopically enriched TeO2 and subsequent heating of the irradiated target, some TeO2 is lost. Again, use of recovered TeO2 for radioiodine production showed that impurities are present, which prevent complete volatilization of radioiodine from the heated target.
B K, Kudelin +3 more
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Physical Decay Characteristics of Radioisotopes of Iodine
1992For the sake of simplicity, only the half-life, energy of excited states, and branching ratio of the radionuclides are included in the decay schemes depicted in Figures 2–1, 2–2, and 2–3.
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Age-Dependent Thyroid Absorbed Doses for Radiobiologically Significant Radioisotopes of Iodine
Health Physics, 2000In light of the post-Chernobyl increase in pediatric thyroid cancer incidence, among other recent events, there is renewed interest in radioiodine thyroid dosimetry and effects. Among the radioiodines produced in fission of 235U, only 131I [(T1/2)p = 8.04 d], 132I (2.3 h), 133I (20.3 h), and 135I (6.7 h) may undergo significant environmental dispersion.
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[Management in cases of accidental contamination by iodine radioisotopes].
Presse medicale (Paris, France : 1983), 1988Iodide can reduce radioactive iodine thyroid uptake and whole-body irradiation. Maximal effectiveness is obtained when 3 conditions are fulfilled: adequate dosage: potassium iodide 130 mg (i.e. iodide 100 mg) as tablets in adults and older children, 50 mg in infants under one year of age; prompt administration after contamination and daily treatment as
M, Schlumberger +4 more
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