UNLABELLED: The objective of this work was to determine normal organ (131)I dosimetry in patients undergoing radioiodide therapy for thyroid cancer by use of serial scanning with (124)I PET. METHODS: A total of 26 patients who had papillary and follicular metastatic thyroid cancer and who were already enrolled in a Memorial Sloan-Kettering Cancer Center (131)I thyroid cancer protocol were selected for this study. Imaging before (131)I therapy consisted of multiple, whole-body (124)I PET studies over a period of 2-8 d, an (18)F-FDG PET scan and, for some, a diagnostic CT scan. With a set of in-house-developed software tools (3-dimensional internal dosimetry [3D-ID] and Multiple Image Analysis Utility [MIAU]), the following procedures were performed: all PET emission and transmission and CT image sets were aligned; half-life-corrected tomographic images of (131)I activity were integrated voxel by voxel to produce cumulated (131)I activity images; and the latter images were, in turn, convolved with a (131)I electron-photon point kernel to produce images of (131)I dose distribution. Cumulated activity values and calculated residence times obtained from our patient-specific dosimetry software (3D-ID) were used as inputs to OLINDA, and volume difference-adjusted comparisons were made between the mean dose estimates. RESULTS: With 3D-ID, dose volume histograms and mean doses were calculated for 14 organs, and results were expressed in Gy/GBq. The highest mean dose, 0.26 Gy/GBq, was seen in the right submandibular gland, whereas the lowest mean dose, 0.029 Gy/GBq, was seen in the brain. CONCLUSION: This is the first comprehensive study of normal organ dosimetry in patients by use of a quantitative tomographic imaging modality.
UNLABELLED: The objective of this work was to determine normal organ (131)I dosimetry in patients undergoing radioiodide therapy for thyroid cancer by use of serial scanning with (124)I PET. METHODS: A total of 26 patients who had papillary and follicular metastatic thyroid cancer and who were already enrolled in a Memorial Sloan-Kettering Cancer Center (131)I thyroid cancer protocol were selected for this study. Imaging before (131)I therapy consisted of multiple, whole-body (124)I PET studies over a period of 2-8 d, an (18)F-FDG PET scan and, for some, a diagnostic CT scan. With a set of in-house-developed software tools (3-dimensional internal dosimetry [3D-ID] and Multiple Image Analysis Utility [MIAU]), the following procedures were performed: all PET emission and transmission and CT image sets were aligned; half-life-corrected tomographic images of (131)I activity were integrated voxel by voxel to produce cumulated (131)I activity images; and the latter images were, in turn, convolved with a (131)I electron-photon point kernel to produce images of (131)I dose distribution. Cumulated activity values and calculated residence times obtained from our patient-specific dosimetry software (3D-ID) were used as inputs to OLINDA, and volume difference-adjusted comparisons were made between the mean dose estimates. RESULTS: With 3D-ID, dose volume histograms and mean doses were calculated for 14 organs, and results were expressed in Gy/GBq. The highest mean dose, 0.26 Gy/GBq, was seen in the right submandibular gland, whereas the lowest mean dose, 0.029 Gy/GBq, was seen in the brain. CONCLUSION: This is the first comprehensive study of normal organ dosimetry in patients by use of a quantitative tomographic imaging modality.
Authors: George Sgouros; Robert F Hobbs; Francis B Atkins; Douglas Van Nostrand; Paul W Ladenson; Richard L Wahl Journal: Eur J Nucl Med Mol Imaging Date: 2011-04-12 Impact factor: 9.236
Authors: Amy Berrington de Gonzalez; Rochelle E Curtis; Stephen F Kry; Ethel Gilbert; Stephanie Lamart; Christine D Berg; Marilyn Stovall; Elaine Ron Journal: Lancet Oncol Date: 2011-04 Impact factor: 41.316
Authors: Abigail E Besemer; Joseph J Grudzinski; Jamey P Weichert; Lance T Hall; Bryan P Bednarz Journal: Cancer Biother Radiopharm Date: 2018-10-23 Impact factor: 3.099
Authors: M Luster; S E Clarke; M Dietlein; M Lassmann; P Lind; W J G Oyen; J Tennvall; E Bombardieri Journal: Eur J Nucl Med Mol Imaging Date: 2008-10 Impact factor: 9.236
Authors: Sarah M Cheal; Hong Xu; Hong-Fen Guo; Sang-Gyu Lee; Blesida Punzalan; Sandhya Chalasani; Edward K Fung; Achim Jungbluth; Pat B Zanzonico; Jorge A Carrasquillo; Joseph O'Donoghue; Peter M Smith-Jones; K Dane Wittrup; Nai-Kong V Cheung; Steven M Larson Journal: Eur J Nucl Med Mol Imaging Date: 2015-11-24 Impact factor: 9.236