Marcus Ruhlmann1, Walter Jentzen2, Verena Ruhlmann2, Cinzia Pettinato3, Gloria Rossi4, Ina Binse2, Andreas Bockisch2, Sandra Rosenbaum-Krumme2. 1. Department of Nuclear Medicine, University Hospital, University Duisburg-Essen, Essen, Germany marcus.ruhlmann@uk-essen.de. 2. Department of Nuclear Medicine, University Hospital, University Duisburg-Essen, Essen, Germany. 3. Medical Physics Unit, Orsola-Malpighi University Hospital, Bologna, Italy; and. 4. Medical Physics Unit, Service Department, Macerata Hospital, Macerata, Italy.
Abstract
UNLABELLED: The aim of this retrospective study was to assess the level of agreement between PET and scintigraphy using diagnostic amounts of (124)I and therapeutic amounts of (131)I, respectively, in detecting iodine-positive metastases in patients with differentiated thyroid carcinoma. METHODS: The study included patients who underwent PET /: CT 24 and 120 h after administration of approximately 25 MBq of (124)I and subsequently underwent imaging 5-10 d after administration of 1-10 GBq of (131)I. For each patient, the intratherapeutic (131)I imaging comprised a whole-body scintigraphy scan and a SPECT/CT scan of the neck to distinguish between metastatic and thyroid remnant tissues. Iodine uptake was rated as a metastatic focus if located outside the thyroid bed. Lesion- and patient-based analyses were performed. RESULTS: The study included 137 patients with 227 metastases iodine-positive on both functional imaging modalities. In the lesion-based analysis, (124)I PET and (131)I imaging detected 98% (223/227) and 99% (225/227) of the iodine-positive metastases, respectively; the level of agreement between (124)I PET and (131)I imaging was 97% (221/227). Four metastases (3 lymph node and 1 bone) in 4 patients were (124)I-negative but (131)I-positive, and 2 lymph node metastases in 2 patients were (131)I-negative but (124)I-positive. In the patient-based analysis, 61 of the 137 patients presented with iodine-positive metastases. (124)I PET and (131)I imaging detected at least one iodine-positive metastasis in 97% (59/61) and 98% (60/61) of the patients, respectively. The level of agreement was 95% (58/61). Both imaging modalities concordantly identified 76 of 137 patients without pathologic iodine uptake. CONCLUSION: Because of the high level of agreement, pretherapeutic (124)I PET/CT is an adequate methodology in the detection of iodine-positive metastases and can be used as a reliable tool for staging of thyroid cancer patients and individualized treatment planning.
UNLABELLED: The aim of this retrospective study was to assess the level of agreement between PET and scintigraphy using diagnostic amounts of (124)I and therapeutic amounts of (131)I, respectively, in detecting iodine-positive metastases in patients with differentiated thyroid carcinoma. METHODS: The study included patients who underwent PET /: CT 24 and 120 h after administration of approximately 25 MBq of (124)I and subsequently underwent imaging 5-10 d after administration of 1-10 GBq of (131)I. For each patient, the intratherapeutic (131)I imaging comprised a whole-body scintigraphy scan and a SPECT/CT scan of the neck to distinguish between metastatic and thyroid remnant tissues. Iodine uptake was rated as a metastatic focus if located outside the thyroid bed. Lesion- and patient-based analyses were performed. RESULTS: The study included 137 patients with 227 metastasesiodine-positive on both functional imaging modalities. In the lesion-based analysis, (124)I PET and (131)I imaging detected 98% (223/227) and 99% (225/227) of the iodine-positive metastases, respectively; the level of agreement between (124)I PET and (131)I imaging was 97% (221/227). Four metastases (3 lymph node and 1 bone) in 4 patients were (124)I-negative but (131)I-positive, and 2 lymph node metastases in 2 patients were (131)I-negative but (124)I-positive. In the patient-based analysis, 61 of the 137 patients presented with iodine-positive metastases. (124)I PET and (131)I imaging detected at least one iodine-positive metastasis in 97% (59/61) and 98% (60/61) of the patients, respectively. The level of agreement was 95% (58/61). Both imaging modalities concordantly identified 76 of 137 patients without pathologic iodine uptake. CONCLUSION: Because of the high level of agreement, pretherapeutic (124)I PET/CT is an adequate methodology in the detection of iodine-positive metastases and can be used as a reliable tool for staging of thyroid cancerpatients and individualized treatment planning.
Authors: Hong Grafe; Maike E Lindemann; Manuel Weber; Julian Kirchner; Ina Binse; Lale Umutlu; Ken Herrmann; Harald H Quick Journal: Cancers (Basel) Date: 2022-06-21 Impact factor: 6.575
Authors: Ora Israel; O Pellet; L Biassoni; D De Palma; E Estrada-Lobato; G Gnanasegaran; T Kuwert; C la Fougère; G Mariani; S Massalha; D Paez; F Giammarile Journal: Eur J Nucl Med Mol Imaging Date: 2019-07-04 Impact factor: 9.236
Authors: David Kersting; Walter Jentzen; Miriam Sraieb; Pedro Fragoso Costa; Maurizio Conti; Lale Umutlu; Gerald Antoch; Michael Nader; Ken Herrmann; Wolfgang Peter Fendler; Christoph Rischpler; Manuel Weber Journal: EJNMMI Phys Date: 2021-02-15