Oliveira Leandro Luís Galdino, Silva Simonne Almeida E, Ribeiro Luiza Helena Vilela, de Oliveira Renato Maurício, Coelho Clarimar José, S Andrade Ana Lúcia S
Instituto de Patologia Tropical e Saúde Pública, Universidade Federal de Goiás, Goiânia, Brazil; Departamento de Computação, LAPIMED, Universidade Católica de Goiás, Goiânia, Brazil. leandro
Int J Med Inform. 2008 Aug;77(8):555-64. doi: 10.1016/j.ijmedinf.2007.10.010. Epub 2008 Feb 20.
This article presents a novel approach based on computer-aided diagnostic (CAD) scheme and wavelet transforms to aid pneumonia diagnosis in children, using chest radiograph images. The prototype system, named Pneumo-CAD, was designed to classify images into presence (PP) or absence of pneumonia (PA).
The knowledge database for the Pneumo-CAD comprised chest images confirmed as PP or PA by two radiologists trained to interpret chest radiographs according to the WHO guidelines for the diagnosis of pneumonia in children. The performance of the Pneumo-CAD was evaluated by a subset of images randomly selected from the knowledge database. The retrieval of similar images was made by feature extraction using wavelets transform coefficients of the image. The energy of the wavelet coefficients was used to compose the feature vector in order to support the computational classification of images as PP or PA. Methodology I worked with a rank-weighted 15-nearest-neighbour scheme, while methodology II employed a distance-dependent weighting for image classification. The performance of the prototype system was assessed by the ROC curve.
Overall, the Pneumo-CAD using the Haar wavelet presented the best accuracy in discriminating PP from PA for both, methodology I (AUC=0.97) and methodology II (AUC=0.94), reaching sensitivity of 100% and specificity of 80% and 90%, respectively.
Pneumo-CAD could represent a complementary tool to screen children with clinical suspicion of pneumonia, and so to contribute to gather information on the burden of-pneumonia estimates in order to help guide health policies toward preventive interventions.
本文提出了一种基于计算机辅助诊断(CAD)方案和小波变换的新方法,用于借助胸部X光图像辅助儿童肺炎诊断。名为Pneumo-CAD的原型系统旨在将图像分类为存在肺炎(PP)或不存在肺炎(PA)。
Pneumo-CAD的知识库包含由两名经过培训、按照世界卫生组织儿童肺炎诊断指南解读胸部X光片的放射科医生确认为PP或PA的胸部图像。Pneumo-CAD的性能通过从知识库中随机选择的一部分图像进行评估。通过使用图像的小波变换系数进行特征提取来检索相似图像。小波系数的能量用于构成特征向量,以支持将图像计算分类为PP或PA。方法I采用秩加权15近邻方案,而方法II采用距离相关加权进行图像分类。通过ROC曲线评估原型系统的性能。
总体而言,使用哈尔小波的Pneumo-CAD在区分PP和PA方面,对于方法I(AUC = 0.97)和方法II(AUC = 0.94)均呈现出最佳准确性,敏感性分别达到100%,特异性分别达到80%和90%。
Pneumo-CAD可以作为一种辅助工具,用于筛查临床怀疑患有肺炎的儿童,从而有助于收集有关肺炎负担估计的信息,以帮助指导针对预防性干预措施的卫生政策。
