Quantitative performance of 124 I PET/MR of neck lesions in thyroid cancer patients using 124 I PET/CT as reference

• Published in: EJNMMI physics Vol. 5; no. 1; p. 13
• Main Authors: Jentzen, Walter, Phaosricharoen, Jinda, Gomez, Benedikt, Hetkamp, Philipp, Stebner, Vanessa, Binse, Ina, Kinner, Sonja, Herrmann, Ken, Sabet, Amir, Nagarajah, James
• Format: Journal Article
• Language: English
• Published: Germany 19.07.2018
• Subjects: Iodine-124; PET/MR; PET/CT; Differentiated thyroid cancer
• ISSN: 2197-7364; 2197-7364

In patients with differentiated thyroid cancer (DTC), serial I PET/CT imaging is, for instance, used to assess the absorbed (radiation) dose to lesions. Frequently, the lesions are located in the neck and they are close to or surrounded by different tissue types. In contrast to PET/CT, MR-based attenuation correction in PET/MR may be therefore challenging in the neck region. The aim of this retrospective study was to assess the quantitative performance of I PET/MRI of neck lesions by comparing the MR-based and CT-based I activity concentrations (ACs). Sixteen DTC patients underwent PET/CT scans at 24 and 120 h after administration of about 25 MBq I. Approximately 1 h before or after PET/CT examination, each patient additionally received a 24-h PET/MR scan and sometimes a 120-h PET/MR scan. PET images were reconstructed using the respective attenuation correction approach. Appropriate reconstruction parameters and corrections were used to harmonize the reconstructed PET images to provide, for instance, similar spatial resolution. For each lesion, two types of ACs were ascertained: the maximum AC (max-AC) and an average AC (avg-AC). The avg-AC is the average activity concentration obtained within a spherical volume of interest with a diameter of 7 mm, equaling the PET scanner resolution. For each type of AC, the percentage AC difference between MR-based and CT-based ACs was determined and Lin's concordance correlation analysis was applied. Quantitative performance was considered acceptable if the standard deviation was ± 25% (precision), and the mean value was within ± 10% (accuracy). The avg-ACs (max-ACs within parentheses) of 74 lesions ranged from 0.20 (0.33) to 657 (733) kBq/mL. Excluding two lesions with ACs of approximately 1 kBq/mL, the mean (median) ± standard deviation (range) was - 4% (- 5%) ± 14% (- 28 to 29%) for the avg-AC and - 9% (- 11%) ± 14% (- 33 to 33%) for the max-AC. Lin's concordance correlation coefficients were ≥ 0.97, indicating substantial AC agreement. Quantification of lesions in the neck region using I PET/MR showed acceptable quantitation performance to I PET/CT for AC above 1 kBq/mL. The PET/MRI-based I ACs in the neck region can be therefore reliably used in pre-therapy dosimetry planning.