OBJECTIVE: Pre-therapeutic blood dosimetry prior to a high-dose radioiodine therapy (RAIT) is recommended and a blood dose of 2 Gy is considered to be safe. In this study, changes in the blood cell count after radioiodine therapy of high risk differentiated thyroid carcinoma (DTC) were analyzed and compared with the results of the pre-therapeutic blood dosimetry using 124I. Moreover, the influence of different modes of TSH stimulation and the number of preceding radioiodine therapies on the blood dose were assessed. METHODS: 198 patients with locally advanced or metastasized DTC received a pre-therapeutic blood dosimetry using 124I. To analyze the influence of the modes of TSH stimulation and the number of preceding RAITs on blood dose subgroups were built as follows: patients with endogenous TSH stimulation versus patients with exogenous TSH stimulation and patients with no preceding RAIT versus patients with at least one preceding RAIT. In 124/198 patients subsequent RAIT was performed. In 73/124 patients, hemograms were performed from day 2 to 12 month after RAIT. RESULTS: There was no high-grade bone marrow toxicity (i.e. ≥ grade 3) in patients receiving less than 2 Gy blood dose-independent of the therapeutic history. Within the first month after radioiodine therapy, there was an overall decrease in the white blood cell and platelet counts. The erythrocyte count was essentially stable. There was a correlation between cell count decrease and predicted blood doses (Spearman's correlation coefficient >-0.6 each) for the white cell line and the platelets. With regard to the subgroups, the blood dose per administered 131I activity (BDpA) was significantly higher in patients with endogenous TSH stimulation (median 0.08 Gy/GBq) than in patients with exogenous TSH stimulation (0.06 Gy/GBq) and in patients with no previous RAIT (0.08 Gy/GBq) compared to patients who had previously undergone at least one RAIT (0.07 Gy/GBq). CONCLUSIONS: The range of BDpA among DTC patients is rather wide. Our results suggest that lower blood doses can be expected when using exogenous TSH stimulation and blood doses are generally higher at first RAIT compared to subsequent RAITs. Thus, we advise to make blood dosimetry standard praxis prior to a high-activity RAIT.
OBJECTIVE: Pre-therapeutic blood dosimetry prior to a high-dose radioiodine therapy (RAIT) is recommended and a blood dose of 2 Gy is considered to be safe. In this study, changes in the blood cell count after radioiodine therapy of high risk differentiated thyroid carcinoma (DTC) were analyzed and compared with the results of the pre-therapeutic blood dosimetry using 124I. Moreover, the influence of different modes of TSH stimulation and the number of preceding radioiodine therapies on the blood dose were assessed. METHODS: 198 patients with locally advanced or metastasized DTC received a pre-therapeutic blood dosimetry using 124I. To analyze the influence of the modes of TSH stimulation and the number of preceding RAITs on blood dose subgroups were built as follows: patients with endogenous TSH stimulation versus patients with exogenous TSH stimulation and patients with no preceding RAIT versus patients with at least one preceding RAIT. In 124/198 patients subsequent RAIT was performed. In 73/124 patients, hemograms were performed from day 2 to 12 month after RAIT. RESULTS: There was no high-grade bone marrow toxicity (i.e. ≥ grade 3) in patients receiving less than 2 Gy blood dose-independent of the therapeutic history. Within the first month after radioiodine therapy, there was an overall decrease in the white blood cell and platelet counts. The erythrocyte count was essentially stable. There was a correlation between cell count decrease and predicted blood doses (Spearman's correlation coefficient >-0.6 each) for the white cell line and the platelets. With regard to the subgroups, the blood dose per administered 131I activity (BDpA) was significantly higher in patients with endogenous TSH stimulation (median 0.08 Gy/GBq) than in patients with exogenous TSH stimulation (0.06 Gy/GBq) and in patients with no previous RAIT (0.08 Gy/GBq) compared to patients who had previously undergone at least one RAIT (0.07 Gy/GBq). CONCLUSIONS: The range of BDpA among DTCpatients is rather wide. Our results suggest that lower blood doses can be expected when using exogenous TSH stimulation and blood doses are generally higher at first RAIT compared to subsequent RAITs. Thus, we advise to make blood dosimetry standard praxis prior to a high-activity RAIT.
Authors: Athanasios Bikas; Mark Schneider; Sameer Desale; Frank Atkins; Mihriye Mete; Kenneth D Burman; Leonard Wartofsky; Douglas Van Nostrand Journal: J Clin Endocrinol Metab Date: 2016-02-22 Impact factor: 5.958
Authors: C Chiesa; K Sjogreen Gleisner; G Flux; J Gear; S Walrand; K Bacher; U Eberlein; E P Visser; N Chouin; M Ljungberg; M Bardiès; M Lassmann; L Strigari; M W Konijnenberg Journal: Eur J Nucl Med Mol Imaging Date: 2017-05-24 Impact factor: 9.236
Authors: Manuel Weber; Jochen Schmitz; Ines Maric; Kim Pabst; Lale Umutlu; Martin Walz; Ken Herrmann; Christoph Rischpler; Frank Weber; Walter Jentzen; Sarah Theurer; Thorsten D Poeppel; Nicole Unger; Wolfgang P Fendler Journal: J Nucl Med Date: 2021-09-23 Impact factor: 11.082
Authors: Lidia Strigari; Mark Konijnenberg; Carlo Chiesa; Manuel Bardies; Yong Du; Katarina Sjögreen Gleisner; Michael Lassmann; Glenn Flux Journal: Eur J Nucl Med Mol Imaging Date: 2014-06-11 Impact factor: 9.236
Authors: Massimiliano Pacilio; Miriam Conte; Viviana Frantellizzi; Maria Silvia De Feo; Antonio Rosario Pisani; Andrea Marongiu; Susanna Nuvoli; Giuseppe Rubini; Angela Spanu; Giuseppe De Vincentis Journal: Diagnostics (Basel) Date: 2022-07-21