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Performance of IOTA ADNEX model in evaluating adnexal masses in a gynecological oncology center in China
Author(s) -
Chen H.,
Qian L.,
Jiang M.,
Du Q.,
Yuan F.,
Feng W.
Publication year - 2019
Publication title -
ultrasound in obstetrics and gynecology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.202
H-Index - 141
eISSN - 1469-0705
pISSN - 0960-7692
DOI - 10.1002/uog.20363
Subject(s) - medicine , adnexal mass , ovarian tumor , ovarian cancer , receiver operating characteristic , stage (stratigraphy) , metastasis , krukenberg tumor , gynecology , gynecologic oncology , radiology , cancer , oncology , paleontology , biology
ABSTRACT Objective To evaluate the diagnostic accuracy of the International Ovarian Tumor Analysis (IOTA) Assessment of Different NEoplasias in the adneXa (ADNEX) model in the preoperative diagnosis of adnexal masses using data from a gynecological oncology center in China. Methods This was a single‐center, retrospective diagnostic accuracy study based on ultrasound data collected prospectively, between May and December 2017, from 278 patients with at least one adnexal (ovarian, paraovarian or tubal) mass. Clinical and pathologic information, serum CA 125 level and ultrasonographic findings were collected. All patients underwent surgery and the histopathological diagnosis was used as reference standard. The final diagnosis was classified into five tumor types according to the ADNEX model: benign ovarian tumor, borderline ovarian tumor (BOT), Stage‐I ovarian cancer (OC), Stages‐II–IV OC and ovarian metastasis. Receiver–operating characteristics (ROC) curve analysis was used to evaluate the diagnostic accuracy of the ADNEX model, with and without inclusion of CA 125 level in the model. Results Of the 278 women included, 203 (73.0%) had a benign ovarian tumor and 75 (27.0%) had a malignant ovarian tumor, including 18 (6.5%) with BOT, 17 (6.1%) with Stage‐I OC, 32 (11.5%) with Stages‐II–IV OC and eight (2.9%) with ovarian metastasis. The performance of the IOTA ADNEX model was good for discriminating between benign and malignant tumors, with an area under the ROC curve (AUC) of 0.94 (95% CI, 0.91–0.97) when CA 125 was included in the model and AUC of 0.93 (95% CI, 0.90–0.96) without CA 125. The AUC values of the model including CA 125 ranged between 0.61 and 0.99 for distinguishing between the different types of tumor, and it showed excellent performance in discriminating between a benign ovarian tumor and Stages‐II–IV OC, with an AUC of 0.99 (95% CI, 0.97–1.00). The performance of the model was less effective at distinguishing between BOT and Stage‐I OC and between Stages‐II–IV OC and ovarian metastasis, with AUC values of 0.61 (95% CI, 0.43–0.77) and 0.78 (95% CI, 0.62–0.90), respectively. Although inclusion of CA 125 did not alter the performance of the ADNEX model in discriminating between benign and malignant lesions (AUC of 0.94 and 0.93 with and without CA 125 level, respectively; P  = 0.54), the inclusion of CA 125 in the model improved its performance in discriminating between Stage‐I OC and Stages‐II–IV OC (AUC increased from 0.81 to 0.92; P  = 0.04) and between Stages‐II–IV OC and metastatic cancer (AUC increased from 0.58 to 0.78; P  = 0.01). Conclusions The IOTA ADNEX model showed good to excellent performance in distinguishing between benign and malignant adnexal masses and between the different types of ovarian tumor in a Chinese setting. Based on our findings, the ADNEX model has high value in clinical practice and can aid in the preoperative diagnosis of patients with an adnexal mass. Copyright © 2019 ISUOG. Published by John Wiley & Sons Ltd.

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