UNLABELLED: Our goals were to evaluate the effect of half-life determination and differences in the half-life of 131I between patients with Graves' disease and toxic nodular goiter, and the influence of antithyroid drugs on iodine uptake. METHODS: We reviewed the records of 555 patients who had received radioiodine treatment for Graves' disease and toxic nodular goiter to analyze iodine uptake, half-life values and pretreatment with antithyroid drugs. Two different methods of dose calculation were compared: one using repeated uptake measurements at 24 and 48 hr and 4 or 6 days to define the effective half-life. The other method assumed a half-life of 5 days and uptake at 24 hr only. All patients were treated according to the first method. A follow-up questionnaire was sent to 327 patients (238 responders) to assess the treatment outcome. RESULTS: After comparing the results of the two methods, we found that repeat uptake measurements and determination of effective half-life results in administered activities that differ considerably from those calculated when an assumed, fixed half-life and a single uptake measurement are used. The simpler method would lead to over- as well as undertreatment of the patient. There was a functional difference between patients with Graves' disease and toxic nodular goiter, as reflected by the shorter 131I half-life in Graves' disease (mean 5.0 days) than toxic nodular goiter (mean 6.0 days) and a skewed distribution in toxic nodular goiter. Patients pretreated with antithyroid drugs had shorter 131I half-lives in both categories. Ten percent of the patients required more than one treatment; 94% of the patients with Graves' disease and 45% with toxic nodular goiter had thyroxine substitution 1-5 yr after treatment. CONCLUSION: A dose calculation method that uses three uptake measurements provides sufficient data about the effective half-life of 131I in the thyroid. There is considerable difference in the half-life based on the disease being treated (Graves' disease or toxic nodular goiter). The 131I half-life also is shorter after pretreatment with anti-thyroid drugs. Thus, the simpler method leads to significant uncertainty, leading to over- as well undertreatment of the patient.
UNLABELLED: Our goals were to evaluate the effect of half-life determination and differences in the half-life of 131I between patients with Graves' disease and toxic nodular goiter, and the influence of antithyroid drugs on iodine uptake. METHODS: We reviewed the records of 555 patients who had received radioiodine treatment for Graves' disease and toxic nodular goiter to analyze iodine uptake, half-life values and pretreatment with antithyroid drugs. Two different methods of dose calculation were compared: one using repeated uptake measurements at 24 and 48 hr and 4 or 6 days to define the effective half-life. The other method assumed a half-life of 5 days and uptake at 24 hr only. All patients were treated according to the first method. A follow-up questionnaire was sent to 327 patients (238 responders) to assess the treatment outcome. RESULTS: After comparing the results of the two methods, we found that repeat uptake measurements and determination of effective half-life results in administered activities that differ considerably from those calculated when an assumed, fixed half-life and a single uptake measurement are used. The simpler method would lead to over- as well as undertreatment of the patient. There was a functional difference between patients with Graves' disease and toxic nodular goiter, as reflected by the shorter 131I half-life in Graves' disease (mean 5.0 days) than toxic nodular goiter (mean 6.0 days) and a skewed distribution in toxic nodular goiter. Patients pretreated with antithyroid drugs had shorter 131I half-lives in both categories. Ten percent of the patients required more than one treatment; 94% of the patients with Graves' disease and 45% with toxic nodular goiter had thyroxine substitution 1-5 yr after treatment. CONCLUSION: A dose calculation method that uses three uptake measurements provides sufficient data about the effective half-life of 131I in the thyroid. There is considerable difference in the half-life based on the disease being treated (Graves' disease or toxic nodular goiter). The 131I half-life also is shorter after pretreatment with anti-thyroid drugs. Thus, the simpler method leads to significant uncertainty, leading to over- as well undertreatment of the patient.
Authors: Peter Brinks; Koen Van Gils; Ellen Kranenborg; Jules Lavalaye; Dennis B M Dickerscheid; Jan B A Habraken Journal: Eur J Nucl Med Mol Imaging Date: 2016-12-17 Impact factor: 9.236
Authors: Peter Schneider; Johannes Biko; Heribert Hänscheid; Stephan Hilliger; Christos Koutsampelas; Michael Kranzfelder; Stephan Ladner; Christoph Reiners Journal: Eur J Nucl Med Mol Imaging Date: 2005-03-10 Impact factor: 9.236