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2 results

  • Does the radioactive iodine dose affect smell, taste sensation and nose function?

  • B Tutar, T Özülker, G Berkiten, S Karaketir, M E Ekincioğlu, Z Saltürk, Ö Onaran, B Gürpınar, Ş Karaketir, T L Kumral, Y Uyar
  • Journal:
    The Journal of Laryngology & Otology / Volume 135 / Issue 1 / January 2021
    Published online by Cambridge University Press:
    22 January 2021, pp. 50-56
    Print publication:
    January 2021
  • Objective

    To detect whether the adverse effects of post-operative radioactive iodine therapy following differentiated thyroid cancer on smell, taste and nasal functions were associated with radioactive iodine dose.

    Methods

    Fifty-one patients who had undergone total thyroidectomy because of differentiated thyroid cancer were divided into two groups depending on the post-operative radioactive iodine therapy dose: low dose group (50 mCi; 21 patients) and high dose group (100–150 mCi; 30 patients). The Sniffin’ Sticks smell test, the Taste Strips test and the 22-item Sino-Nasal Outcome Test were performed on all patients one week before therapy, and at two months and one year following therapy.

    Results

    Statistically significant differences were detected in the Sniffin’ Sticks test results, total odour scores, total taste scores and Sino-Nasal Outcome Test results between the assessment time points. There was no statistically significant difference between the low and high dose groups in terms of odour, taste or Sino-Nasal Outcome Test scores either before or after therapy.

    Conclusion

    Radioactive iodine therapy has some short- and long-term adverse effects on nasal functions and taste and odour sensations, which affect quality of life. These effects are not dose-dependent.

  • Bioreduction of iodate in sediment microcosms

  • Fabiola Guido-Garcia, Gareth T. W. Law, Jonathan R. Lloyd, Paul Lythgoe, Katherine Morris
  • Journal:
    Mineralogical Magazine / Volume 79 / Issue 6 / November 2015
    Published online by Cambridge University Press:
    02 January 2018, pp. 1343-1351
    • Article
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  • Iodine-129 is a high-yield fission product formed in nuclear reactors and is a risk-driving radionuclide in both contaminated land and radioactive waste disposal due to its high mobility and long half-life. Here, the bioreduction behaviour of iodate was investigated by tracking iodinespeciation and concentration in solution during the development of progressive anoxia in sediment microcosm experiments incubated at neutral pH. Experiments with acetate added as an electron donor showed the expected cascade of terminal electron-accepting processes. Analysis of solution chemistryshowed reduction of iodate to iodide during the early stages of metal (Mn(IV) and Fe(III)) reduction, but with no significant retention of iodine species on solids. There was, however, a net release of natural iodine associated with the sediments to solution when robust iron reduction / sulfatereduction had developed. In addition, over 210 days, the controls with no electron donor and the sterile controls showed no Mn(IV) or Fe(III) reduction but displayed modest sorption of iodate to the sediments in the absence of bioreduction. Overall these results show that under oxic conditionsiodate may be partially sorbed to sediments over extended periods but that development of mildly reducing conditions leads to the reductive release of iodine to solution as iodide.