TY - JOUR T1 - Comparative Evaluation of 24-Hour Thyroid <sup>131</sup>I Uptake Between γ Camera–Based Method Using Medium-Energy Collimator and Standard Uptake Probe–Based Method JF - Journal of Nuclear Medicine Technology JO - J. Nucl. Med. Technol. SP - 194 LP - 197 DO - 10.2967/jnmt.114.139162 VL - 42 IS - 3 AU - Biju K. Menon AU - Ramesh D. Rao AU - Amit Abhyankar AU - M.G. Ramakrishna Rajan AU - Sandip Basu Y1 - 2014/09/01 UR - http://tech.snmjournals.org/content/42/3/194.abstract N2 - The objective of the study was to make a quantitative comparison of 24-h thyroid uptake calculated by γ camera–based and thyroid uptake probe–based methods after administration of a diagnostic 131I capsule in patients with benign thyroid disorders. Methods: The study group comprised 66 patients, of whom 26 were male (28–67 y old) and 40 female (20–65 y old). These patients had benign thyroid disorders (primarily hyperthyroidism [thyrotoxicosis]), most of whom had been referred for evaluation before radioiodine treatment. 131I (25 μCi [925 MBq]) was administered, and 24-h thyroid uptake was calculated using a probe-based method and a camera-based method with a medium-energy parallel-hole collimator. The paired t test was used to check the variation in values obtained by these 2 methodologies. Result: Of the 66 patients included in this study, 45 had clinical thyrotoxicosis and 21 had nonthyrotoxic multinodular goiter. In the group with thyrotoxicosis, neck uptake ranged from 40.13% to 97.1% by the probe-based method and 36.89% to 95.9% by the camera-based method. In the group with clinically nonthyrotoxic goiter, neck uptake ranged from 1.4% to 38.4% by the probe-based method and 0.6% to 34.8% by the camera-based method. Paired t testing was performed on both groups of patients, and P values were less than 0.05, showing good agreement within the 2 groups of data. Conclusion: The camera-based method is a good substitute for the probe-based method; though not producing identical results, the former could be used to derive useful quantitative information on thyroid function. ER -