Michael K. Hoy, Vishal Desai, Simukayi Mutasa, Robert C. Hoy, Richard Gorniak, Jeffrey A. Belair
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引用次数: 0
摘要
使用新型深度学习系统定位髋关节并检测凸轮型股骨髋臼撞击症(FAI)的发现。对患者为评估 FAI 而获得的髋关节/骨盆 X 光片进行回顾性检索,共获得 3050 项研究结果。每个髋关节都由最初的放射科医生按以下方式进行了分类:724个髋关节有重度凸轮型FAI形态,962个髋关节有中度凸轮型FAI形态,846个髋关节有轻度凸轮型FAI形态,518个髋关节正常。每项研究的前胸(AP)切面都经过匿名处理和提取。基于焦点损失原理的新型卷积神经网络(CNN)对髋关节进行定位后,第二个 CNN 将髋关节图像分为凸轮阳性或无 FAI 两类。在所选操作点上,诊断正常与异常凸轮型 FAI 形态的准确率为 74%,总灵敏度和特异度分别为 0.821 和 0.669。总的 AUC 为 0.736。深度学习系统可用于检测单视角骨盆X光片上与FAI相关的变化。深度学习有助于快速识别成像上的病理变化并对其进行分类,从而为放射科医生提供帮助。
Deep Learning–Assisted Identification of Femoroacetabular Impingement (FAI) on Routine Pelvic Radiographs
To use a novel deep learning system to localize the hip joints and detect findings of cam-type femoroacetabular impingement (FAI). A retrospective search of hip/pelvis radiographs obtained in patients to evaluate for FAI yielded 3050 total studies. Each hip was classified separately by the original interpreting radiologist in the following manner: 724 hips had severe cam-type FAI morphology, 962 moderate cam-type FAI morphology, 846 mild cam-type FAI morphology, and 518 hips were normal. The anteroposterior (AP) view from each study was anonymized and extracted. After localization of the hip joints by a novel convolutional neural network (CNN) based on the focal loss principle, a second CNN classified the images of the hip as cam positive, or no FAI. Accuracy was 74% for diagnosing normal vs. abnormal cam-type FAI morphology, with aggregate sensitivity and specificity of 0.821 and 0.669, respectively, at the chosen operating point. The aggregate AUC was 0.736. A deep learning system can be applied to detect FAI-related changes on single view pelvic radiographs. Deep learning is useful for quickly identifying and categorizing pathology on imaging, which may aid the interpreting radiologist.
期刊介绍:
The Journal of Digital Imaging (JDI) is the official peer-reviewed journal of the Society for Imaging Informatics in Medicine (SIIM). JDI’s goal is to enhance the exchange of knowledge encompassed by the general topic of Imaging Informatics in Medicine such as research and practice in clinical, engineering, and information technologies and techniques in all medical imaging environments. JDI topics are of interest to researchers, developers, educators, physicians, and imaging informatics professionals.
Suggested Topics
PACS and component systems; imaging informatics for the enterprise; image-enabled electronic medical records; RIS and HIS; digital image acquisition; image processing; image data compression; 3D, visualization, and multimedia; speech recognition; computer-aided diagnosis; facilities design; imaging vocabularies and ontologies; Transforming the Radiological Interpretation Process (TRIP™); DICOM and other standards; workflow and process modeling and simulation; quality assurance; archive integrity and security; teleradiology; digital mammography; and radiological informatics education.
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