Deep Learning Classifier with Patient's Metadata of Dermoscopic Images in Malignant Melanoma Detection

Incidence of skin cancer is one of the global burdens of malignancies that increase each year, with melanoma being the deadliest one. Imaging-based automated skin cancer detection still remains challenging owing to variability in the skin lesions and limited standard dataset availability. Recent res...

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Bibliographic Details
Published in:Journal of multidisciplinary healthcare 2021-01, Vol.14, p.877-885
Main Authors: Ningrum, Dina Nur Anggraini, Yuan, Sheng-Po, Kung, Woon-Man, Wu, Chieh-Chen, Tzeng, I-Shiang, Huang, Chu-Ya, Li, Jack Yu-Chuan, Wang, Yao-Chin
Format: Article
Language:English
Subjects:
Accuracy
Age
Archives & records
Artificial intelligence
artificial neural network
Cable television broadcasting industry
Cancer
Collaboration
convolutional neural network
Datasets
Deep learning
Dermatology
Diagnosis
embedded artificial intelligence
Gender
Health care
Medical screening
Melanoma
Metadata
Neural networks
Oncology, Experimental
Original Research
Patients
Prognosis
Security systems
Skin
Skin cancer
Variables
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Summary:Incidence of skin cancer is one of the global burdens of malignancies that increase each year, with melanoma being the deadliest one. Imaging-based automated skin cancer detection still remains challenging owing to variability in the skin lesions and limited standard dataset availability. Recent research indicates the potential of deep convolutional neural networks (CNN) in predicting outcomes from simple as well as highly complicated images. However, its implementation requires high-class computational facility, that is not feasible in low resource and remote areas of health care. There is potential in combining image and patient's metadata, but the study is still lacking. We want to develop malignant melanoma detection based on dermoscopic images and patient's metadata using an artificial intelligence (AI) model that will work on low-resource devices. We used an open-access dermatology repository of International Skin Imaging Collaboration (ISIC) Archive dataset consist of 23,801 biopsy-proven dermoscopic images. We tested performance for binary classification malignant melanomas vs nonmalignant melanomas. From 1200 sample images, we split the data for training (72%), validation (18%), and testing (10%). We compared CNN with image data only (CNN model) vs CNN for image data combined with an artificial neural network (ANN) for patient's metadata (CNN+ANN model). The balanced accuracy for CNN+ANN model was higher (92.34%) than the CNN model (73.69%). Combination of the patient's metadata using ANN prevents the overfitting that occurs in the CNN model using dermoscopic images only. This small size (24 MB) of this model made it possible to run on a medium class computer without the need of cloud computing, suitable for deployment on devices with limited resources. The CNN+ANN model can increase the accuracy of classification in malignant melanoma detection even with limited data and is promising for development as a screening device in remote and low resources health care.
ISSN:1178-2390
1178-2390
DOI:10.2147/JMDH.S306284