Investigation of artificial intelligence-based clinical decision support system's performance in reducing the fine needle aspiration rate of thyroid nodules: A pilot study.

IF 0.8 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING Ultrasound Pub Date : 2024-12-07 DOI:10.1177/1742271X241299220

Amy Barnes, Rebecca White, Heather Venables, Vincent Lam, Ram Vaidhyanath

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Abstract

Introduction: This pilot study aims to evaluate the clinical impact of artificial intelligence-based decision support, Koios Decision Support™, on the diagnostic performance of ultrasound assessment of thyroid nodules, and as a result to avoid fine needle aspiration.

Methods: This retrospective pilot study was conducted on ultrasound images of thyroid nodules investigated with fine needle aspiration from January 2022 to December 2022. Orthogonal ultrasound images of thyroid nodules, previously investigated with fine needle aspiration, were compared with the Koios Decision Support™ suggestion to perform fine needle aspiration. Surgical histology was used as ground truth.

Results: A total of 29 patients (76% women) with a mean age of 48 ± 16.5 years were evaluated, n = 15 (52%) were histologically proven benign and n = 14 (48%) were malignant. In the benign group, Koios Decision Support™ suggested avoidable fine needle aspiration in n = 8 (53%). In the malignant group, Koios Decision Support™ suggested follow-up or no fine needle aspiration in n = 2 (14%). Sensitivity is 85.7% (n = 12) (p = 0.027), whereas specificity is 53.3% (n = 8) (p = 0.027). The positive predictive value is 63.2% (n = 12), negative predictive value is 80% (n = 8), false-negative value is 20% (n = 2) and false-positive value is 36.8% (n = 7). Based on artificial intelligence decision, one cancer would have been missed.

Conclusion: Artificial intelligence can improve specificity without significantly compromising sensitivity. There was a suggested reduction in the fine needle aspiration rate, in the histologically proven benign nodules, by 53%. This had no statistical significance, likely due to the small population, however, it is thought to be the largest study to date. Further investigation with wider-ranging studies is suggested.

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基于人工智能的临床决策支持系统降低甲状腺结节细针穿刺率的初步研究。

简介：本初步研究旨在评估基于人工智能的决策支持系统Koios decision support™对甲状腺结节超声诊断性能的临床影响，从而避免细针穿刺。方法：回顾性研究2022年1月至2022年12月细针穿刺检查甲状腺结节的超声图像。将先前采用细针抽吸研究的甲状腺结节的正交超声图像与Koios Decision Support™建议的细针抽吸进行比较。手术组织学作为基本事实。结果：共29例患者（76%为女性），平均年龄（48±16.5岁），病理证实良性15例（52%），恶性14例（48%）。在良性组，Koios决策支持™建议可避免细针抽吸n = 8（53%）。在恶性组中，Koios决策支持™建议随访或不进行细针抽吸n = 2（14%）。敏感性为85.7% (n = 12) (p = 0.027)，特异性为53.3% (n = 8) （p = 0.027）。阳性预测值为63.2% (n = 12)，阴性预测值为80% (n = 8)，假阴性预测值为20% (n = 2)，假阳性预测值为36.8% （n = 7）。基于人工智能决策，将遗漏1例癌症。结论：人工智能可在不影响敏感性的前提下提高特异性。在组织学证实的良性结节中，建议减少53%的细针抽吸率。这没有统计学上的意义，可能是由于人口较少，然而，它被认为是迄今为止最大的研究。建议进行更广泛的调查研究。

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来源期刊

Ultrasound RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-

CiteScore

1.70

自引率

0.00%

发文量

期刊介绍： Ultrasound is the official journal of the British Medical Ultrasound Society (BMUS), a multidisciplinary, charitable society comprising radiologists, obstetricians, sonographers, physicists and veterinarians amongst others.