Melanoma risk modeling from limited positive samples

In this study, we explored various machine learning techniques for building a melanoma skin cancer risk model. The dataset contains records of routine dermatology office visits from 9,531,408 patients spread throughout the United States. Of these patients, 17,246 (0.18%) developed melanoma. We conducted extensive experiments to effectively learn from this dataset with limited positive samples. We derived datasets with more severe class imbalance and tested several classifiers with different data sampling techniques to build the best possible model. Additionally, we explored various properties of the datasets to determine relationships between class distributions and model performance. We found that randomly removing negative cases from the training datasets significantly improved model performance. K-means clustering of different groups of instances shows that there is greater homogeneity in negative samples, and the model results reflect that removing these samples increases overall model performance. This experiment provides a reference framework for future risk models, since most datasets will have a plethora of healthy patients, but only a few key patients that are at high risk for developing a disease.
Source: Network Modeling Analysis in Health Informatics and Bioinformatics - Category: Bioinformatics Source Type: research