ODP530 When "Taller-Than-Wide" Is Not Taller-Than-Wide

The thyroid nodule ultrasonic characteristic referred to as "Taller-than-Wide" (TtW) is defined as a nodule's anterior-posterior diameter/left-right diameter ratio (i. e. AP/LR ratio) on transverse view. This characteristic is regarded as a major feature suggesting malignancy. On the Amer College of Radiology's TIRADS ("Thyroid Imaging Reporting and Data System") guidelines, TtW status usually indicates the need for an aspiration biopsy (FNA). Given this importance, and the subjective and technical limitations of ultrasonic linear measurements of nodule diameters, it would be prudent to be aware of the probabilities that an AP/LR ratio may be under-estimated or over-estimated, potentially causing a false-negative or false-positive TtW interpretation, respectively. To assess these probabilities two approaches were taken. Eight observers were trained how to carefully measure the AP and LR diameters of thyroid nodules by ultrasound. The observers measured these diameters on the same transverse image from each of 34 benign thyroid nodules without knowledge of the measurements obtained by other observers. Thus, 272 independently obtained, rank-ordered individual AP/LR ratios (34 nodules×8 observations each) were plotted on the y-axis against themean AP/LR for each nodule (34mean AP/LRs, regarded as the consensus "true" AP/LRs for the corresponding nodule). By Spearman's rank correlation method, variations in individual AP/LR ratios (i. e., the individualAP/LR ratios minus their correspondingmean AP/LR ratios) were plotted on the x-axis as a function of their rank-ordered fraction of the total population on the y-axis. By this method, the top 20% ofindividual AP/LR ratios were 0. 075 to 0.550 greater than their correspondingmean AP/LRs. The bottom 20% ofindividual AP/LR ratios were 0. 085 to 0.300 lower than their correspondingmean AP/LR ratios. To determine the clinical significance of these variations, theindividual AP/LR rations of the 34 nodules were plotted on the y-axis as a function of their correspondingmean AP/LR ratios. Of the 28 nodules whosemean AP/LR ratios were 1 (False Pos TtW status). Of the 6 nodules whosemean AP/LR ratios were >1, 6 (12.5%) of their 48individualAP/LR ratios (6×8) were read as