The aim of this study was to compare radioactive iodine (I-131) biokinetics after recombinant human TSH stimulation (rhTSH) and thyroid hormone withdrawal (THW) in patients with differentiated thyroid cancer (DTC). External effective dose rates were measured using external detectors and imaged quantitatively at the time of discharge from the isolation wards. We retrospectively analyzed 32 patients who had been diagnosed with DTC, papillary or follicular, and underwent remnant ablation after either rhTSH stimulation (n=22) or THW (n=10). The uptake of I-131 by remnant thyroid tissue was measured from 20.0 cm, 100.0 cm and 200.0 cm distances using a handheld external detector. The remnant thyroid tissue measured by the whole body images two to five days from administration was 10.7+26.0% (range 0.5 to 60.0%). The values measured at 20 cm were best correlated to the thyroid residual uptake measured by SPECT/CT. The half-lives of I-131washout (T1/2) in rhTSH group measured by external detector were shorter than those of THW group. T1/2 becomes longer when it was measured over longer distances. They were 10.9, 12.3 and 13.1 hours at distances of 20, 100, and 200 cm in rhTSH group, respectively. The TWH group showed 12.8, 14.9 and 17.7 hours, respectively. We conclude that I-131 biokinetics can be measured by external detector after high dose I-131 therapy for DTC. It showed that washout of I-131 was faster after rhTSH stimulation than THW, and slower in patients with distant metastasis than those without metastasis.
Body Image ; Humans ; Iodine ; Iodine Radioisotopes ; Neoplasm Metastasis ; Neoplasm, Residual ; Retrospective Studies ; Thyroid Gland* ; Thyroid Neoplasms* ; Thyroidectomy ; Thyrotropin Alfa*

this systematic review was conducted to assess the practical application of terbium radioisotopes, utilizing systematic search methodologies to identify relevant studies. Methods the databases of PubMed, Web of Science, and Scopus were systematically scoured, targeting the research on four terbium isotopes: 149Tb, 152Tb, 155Tb, and 161Tb. Various combinations of keywords related to terbium and its four radioisotopes were used in the search process. The search encompassed studies conducted up to July 27, 2024. Results following the removal of 335 duplicate research articles, a cohort of 429 papers was curated for potential inclusion in the study. Out of 429 articles reviewed, a mere nine addressed the potential uses of 161Tb and 152Tb. Notably, 155Tb and 149Tb have yet to be examined in human subjects. Conclusions the research trajectory is now veering towards clinical studies that provide in-human data, with the goal of advancing radiotheranostics and nuclear oncology. The preliminary outcomes are stimulating and have led to the initiation of several clinical trials. The success of these trials and the establishment of production facilities will be critical for the clinical adoption of these agents.

this systematic review was conducted to assess the practical application of terbium radioisotopes, utilizing systematic search methodologies to identify relevant studies. Methods the databases of PubMed, Web of Science, and Scopus were systematically scoured, targeting the research on four terbium isotopes: 149Tb, 152Tb, 155Tb, and 161Tb. Various combinations of keywords related to terbium and its four radioisotopes were used in the search process. The search encompassed studies conducted up to July 27, 2024. Results following the removal of 335 duplicate research articles, a cohort of 429 papers was curated for potential inclusion in the study. Out of 429 articles reviewed, a mere nine addressed the potential uses of 161Tb and 152Tb. Notably, 155Tb and 149Tb have yet to be examined in human subjects. Conclusions the research trajectory is now veering towards clinical studies that provide in-human data, with the goal of advancing radiotheranostics and nuclear oncology. The preliminary outcomes are stimulating and have led to the initiation of several clinical trials. The success of these trials and the establishment of production facilities will be critical for the clinical adoption of these agents.

this systematic review was conducted to assess the practical application of terbium radioisotopes, utilizing systematic search methodologies to identify relevant studies. Methods the databases of PubMed, Web of Science, and Scopus were systematically scoured, targeting the research on four terbium isotopes: 149Tb, 152Tb, 155Tb, and 161Tb. Various combinations of keywords related to terbium and its four radioisotopes were used in the search process. The search encompassed studies conducted up to July 27, 2024. Results following the removal of 335 duplicate research articles, a cohort of 429 papers was curated for potential inclusion in the study. Out of 429 articles reviewed, a mere nine addressed the potential uses of 161Tb and 152Tb. Notably, 155Tb and 149Tb have yet to be examined in human subjects. Conclusions the research trajectory is now veering towards clinical studies that provide in-human data, with the goal of advancing radiotheranostics and nuclear oncology. The preliminary outcomes are stimulating and have led to the initiation of several clinical trials. The success of these trials and the establishment of production facilities will be critical for the clinical adoption of these agents.

this systematic review was conducted to assess the practical application of terbium radioisotopes, utilizing systematic search methodologies to identify relevant studies. Methods the databases of PubMed, Web of Science, and Scopus were systematically scoured, targeting the research on four terbium isotopes: 149Tb, 152Tb, 155Tb, and 161Tb. Various combinations of keywords related to terbium and its four radioisotopes were used in the search process. The search encompassed studies conducted up to July 27, 2024. Results following the removal of 335 duplicate research articles, a cohort of 429 papers was curated for potential inclusion in the study. Out of 429 articles reviewed, a mere nine addressed the potential uses of 161Tb and 152Tb. Notably, 155Tb and 149Tb have yet to be examined in human subjects. Conclusions the research trajectory is now veering towards clinical studies that provide in-human data, with the goal of advancing radiotheranostics and nuclear oncology. The preliminary outcomes are stimulating and have led to the initiation of several clinical trials. The success of these trials and the establishment of production facilities will be critical for the clinical adoption of these agents.

this systematic review was conducted to assess the practical application of terbium radioisotopes, utilizing systematic search methodologies to identify relevant studies. Methods the databases of PubMed, Web of Science, and Scopus were systematically scoured, targeting the research on four terbium isotopes: 149Tb, 152Tb, 155Tb, and 161Tb. Various combinations of keywords related to terbium and its four radioisotopes were used in the search process. The search encompassed studies conducted up to July 27, 2024. Results following the removal of 335 duplicate research articles, a cohort of 429 papers was curated for potential inclusion in the study. Out of 429 articles reviewed, a mere nine addressed the potential uses of 161Tb and 152Tb. Notably, 155Tb and 149Tb have yet to be examined in human subjects. Conclusions the research trajectory is now veering towards clinical studies that provide in-human data, with the goal of advancing radiotheranostics and nuclear oncology. The preliminary outcomes are stimulating and have led to the initiation of several clinical trials. The success of these trials and the establishment of production facilities will be critical for the clinical adoption of these agents.