An Intelligent Computer Aided Diagnosis System for Classification of Ovarian Masses using Machine Learning Approach

Smital D. Patil, Pramod J. Deore, Vaishali Bhagwat Patil
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Abstract

Ovarian cancer, a difficult and often asymptomatic malignancy, remains a substantial global health concern in women. An ovary is a female reproductive organ, which lies on each side of the uterus and used to store eggs. Computer-aided diagnosis (CAD) is an approach that involves using computer algorithms and machine learning techniques to assist medical professionals in diagnosing ovarian malignancies, benign tumors or Poly-cystic ovaries (PCOS). The need for models that can effectively predict benign ovarian tumors and ovarian cancer has led to the use of machine learning techniques. Our research objective is to propose a machine learning-based system for accurate and early ovarian mass detection utilizing novel annotated ovarian masses. We have used an actual patient database whose input features were extracted from 187 transvaginal ultrasound images from database. The input image is preprocessed using the Block Matching 3D filter. The process involves employing binary and watershed segmentation techniques, followed by the integration of Gabor, Gray-Level Co-Occurrence Matrix (GLCM), Tamura, and edge feature extraction methods. K-Nearest Neighbors (KNN) and Random Forest (RF) are two classifiers used for classification. Based on our results, we are able to demonstrate that binary segmentation with RF classifiers is more accurate (above 86%) than KNN classifiers (under 84%).
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利用机器学习方法对卵巢肿块进行分类的智能计算机辅助诊断系统
卵巢癌是一种难治且通常无症状的恶性肿瘤,仍然是全球妇女健康的一个重大问题。卵巢是女性的生殖器官,位于子宫两侧,用于储存卵子。计算机辅助诊断(CAD)是一种利用计算机算法和机器学习技术协助医疗专业人员诊断卵巢恶性肿瘤、良性肿瘤或多囊卵巢综合症(PCOS)的方法。由于需要能有效预测良性卵巢肿瘤和卵巢癌的模型,机器学习技术应运而生。我们的研究目标是提出一种基于机器学习的系统,利用新注释的卵巢肿块进行准确的早期卵巢肿块检测。我们使用了一个实际患者数据库,其输入特征是从数据库中的 187 幅经阴道超声图像中提取的。输入图像使用块匹配三维滤波器进行预处理。处理过程包括采用二元和分水岭分割技术,然后整合 Gabor、灰度共生矩阵(GLCM)、Tamura 和边缘特征提取方法。K-Nearest Neighbors (KNN) 和 Random Forest (RF) 是用于分类的两个分类器。结果表明,使用 RF 分类器进行二进制分割的准确率(86% 以上)高于 KNN 分类器(84% 以下)。
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