Calcification of thyroid nodules increases shear-wave speed (SWS) measurement: Using multiple calcification-specific SWS cutoffvalues outperforms a single uniform cutoffvalue in diagnosing malignant thyroid nodules

Abstract

Conventional ultrasound cannot satisfactorily distinguish malignant and benign thyroid nodules. Shear-wave elastography (SWE) can evaluate tissue stiffness and complement conventional ultrasound in diagnosing malignant nodules. However, calcification of nodules may affect the results of SWE. The purposes of this study are to compare the differences of shear-wave speed (SWS) measurement among different calcification groups and compare the diagnostic performance between using a single uniform SWS cutoffvalue and multiple individual calcification-specific cutoffvalues using technique of point SWS measurement. We retrospectively identified 517 thyroid nodules (346 benign and 171 malignant nodules) examined by conventional ultrasound and point SWS measurement. There were 177 non-calcified, 159 micro-calcified and 181 macro-calcified nodules. The diagnostic performance was evaluated by receiver operating characteristic (ROC) curve and area under the curve (AUC) was computed. The mean SWS in malignant nodules more than doubled that of benign nodules (4.81±2.03 m/s vs. 2.29±0.99 m/s, p < 0.001). The mean SWS of nodules progressively increased from the non-calcification (2.60±1.49 m/s), to micro-calcification (3.27±1.85 m/s) and to macro-calcification (3.68±2.26 m/s) groups (p < 0.001), which was true in both the benign and malignant nodules. If we used individual SWS cutoffvalues for non- (SWS > 2.42 m/s), micro- (SWS > 2.88 m/s) and macro-calcification (SWS > 3.59 m/s) nodules in the whole group, the AUC was 0.859 (95% confidence interval [CI], 0.826-0.888), which was significantly better than the AUC of 0.816 (95% CI, 0.780-0.848) if a single uniform cutoffvalue (SWS > 2.72 m/s) was applied to all the nodules regardless of calcification status (p=0.011). The cutoffvalues of SWS for different calcified nodules warrant future prospective validation.