Framework to Support Radiologist Personnel in the Diagnosis of Diseases in Medical Images Using Deep Learning and Personalized DICOM Tags

Manuel Rodriguez Contreras, J. Patricia Sánchez-Solís, Gilberto Rivera, Rogelio Florencia

Abstract


Technological innovations in the healthcare field have allowed medical images to be widely used inthe diagnostic care of patients since medical personnel can analyze different body organs to identify any disease through these images. The analysis of these images is entirely within the domain of the specialist, who, basedon his/her experience, interprets them and discloses the results to the patient. This paper presents the architecture of a framework that seeks to supportthe decision-making of medical personnel regarding the diagnosis of diseases. The framework integratescustom tags in the metadata of Digital Imaging and Communications in Medicine (DICOM) files. The tags contain the classification results of supervised learning models. Different convolutional neural network (CNN) architectures trained on medical images were developed using transfer learning and existing pre-trained CNNsto evaluate the framework’s performance. A web viewer was also developed to show medical personnel the custom tags. Due to the characteristics of the framework, its use could be extended to patients so that they could obtain a preliminary diagnosis and go to the doctor as soon as possible, which could be crucial.

Keywords


DICOM, deep learning, convolutional neural networks, ML.NET, Lung Cancer

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