Enhancing detection of previously missed non-palpable breast carcinomas through artificial intelligence.

IF 1.8 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING European Journal of Radiology Open Pub Date : 2024-12-25 eCollection Date: 2025-06-01 DOI:10.1016/j.ejro.2024.100629

Sahar Mansour, Rasha Kamal, Samar Ahmed Hussein, Mostafa Emara, Yomna Kassab, Sherif Nasser Taha, Mohammed Mohammed Mohammed Gomaa

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Abstract

Purpose: To investigate the impact of artificial intelligence (AI) reading digital mammograms in increasing the chance of detecting missed breast cancer, by studying the AI- flagged early morphology indictors, overlooked by the radiologist, and correlating them with the missed cancer pathology types.

Methods and materials: Mammograms done in 2020-2023, presenting breast carcinomas (n = 1998), were analyzed in concordance with the prior one year's result (2019-2022) assumed negative or benign. Present mammograms reviewed for the descriptors: asymmetry, distortion, mass, and microcalcifications. The AI presented abnormalities by overlaying color hue and scoring percentage for the degree of suspicion of malignancy.

Results: Prior mammogram with AI marking compromised 54 % (n = 555), and in the present mammograms, AI targeted 904 (88 %) carcinomas. The descriptor proportion of "asymmetry" was the common presentation of missed breast carcinoma (64.1 %) in the prior mammograms and the highest detection rate for AI was presented by "distortion" (100 %) followed by "grouped microcalcifications" (80 %). AI performance to predict malignancy in previously assigned negative or benign mammograms showed sensitivity of 73.4 %, specificity of 89 %, and accuracy of 78.4 %.

Conclusions: Reading mammograms with AI significantly enhances the detection of early cancerous changes, particularly in dense breast tissues. The AI's detection rate does not correlate with specific pathological types of breast cancer, highlighting its broad utility. Subtle mammographic changes in postmenopausal women, not corroborated by ultrasound but marked by AI, warrant further evaluation by advanced applications of digital mammograms and close interval AI-reading mammogram follow up to minimize the potential for missed breast carcinoma.

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通过人工智能增强对先前未发现的非可触及乳腺癌的检测。

目的：通过研究人工智能（AI）标记的早期形态学指标，并将其与漏诊的癌症病理类型进行关联，探讨人工智能（AI）读取数字乳房x线照片对增加漏诊乳腺癌的机会的影响。方法和材料：分析2020-2023年乳房x光片显示的乳腺癌（n = 1998），并与前一年（2019-2022年）的阴性或良性结果一致。目前乳房x光检查的描述：不对称，扭曲，肿块和微钙化。人工智能通过叠加色相和恶性怀疑程度评分百分比来呈现异常。结果：先前有AI标记的乳房x线照片损害了54% % (n = 555)，而在目前的乳房x线照片中，AI靶向904（88 %）癌。在之前的乳房x光检查中，“不对称”的描述比例是乳腺癌漏诊的常见表现（64.1 %），AI的最高检出率是“畸变”（100 %），其次是“分组微钙化”（80 %）。人工智能在先前指定的阴性或良性乳房x线照片中预测恶性肿瘤的表现灵敏度为73.4 %，特异性为89 %，准确性为78.4% %。结论：人工智能阅读乳房x线照片可显著提高对早期癌变的发现，特别是在致密乳腺组织中。人工智能的检出率与特定的病理类型无关，突出了其广泛的实用性。绝经后妇女乳房x光检查的细微变化，未被超声证实，但被人工智能标记出来，需要通过先进的数字乳房x光检查和密切间隔的人工智能阅读乳房x光检查随访进一步评估，以尽量减少漏诊乳腺癌的可能性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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