Abstract
Modern radiologic images comply with DICOM (digital imaging and communications in medicine) standard, which, upon conversion to other image format, would lose its image detail and information such as patient demographics or type of image modality that DICOM format carries. As there is a growing interest in using large amount of image data for research purpose and acquisition of large amount of medical image is now a standard practice in the clinical setting, efficient handling and storage of large amount of image data is important in both the clinical and research setting. In this study, four classes of images were created, namely, CT (computed tomography) of abdomen, CT of brain, MRI (magnetic resonance imaging) of brain and MRI of spine. After converting these images into JPEG (Joint Photographic Experts Group) format, our proposed CNN architecture could automatically classify these 4 groups of medical images by both their image modality and anatomic location. We achieved excellent overall classification accuracy in both validation and test sets (> 99.5%), specificity and F1 score (> 99%) in each category of this dataset which contained both diseased and normal images. Our study has shown that using CNN for medical image classification is a promising methodology and could work on non-DICOM images, which could potentially save image processing time and storage space.
Highlights
Modern radiologic medical images, comply with DICOM standard, which is a worldwide standard for the storage and transmission of medical imaging
The header information is encoded within the DICOM file so that it cannot be accidentally separated from the image
The goal of this study is to see if Convolutional Neural Network (CNN) can accurately discriminate medical images from their imaging modalities and anatomic location after they have been converted into other image format, namely JPEG format
Summary
Comply with DICOM (digital imaging and communications in medicine) standard, which is a worldwide standard for the storage and transmission of medical imaging. The reason for using the DICOM standard is to ensure that all the medical images made by different machines, hospitals or companies can speak the same language and operate within the same environment. Each DICOM file has a header containing data such as patient demographic information, acquisition parameters and image dimensions. The remaining portion of the DICOM file contains the image data [1]. The header information is encoded within the DICOM file so that it cannot be accidentally separated from the image.
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