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While deep-learning based recommender systems utilizing collaborative
filtering have been commonly used for recommendation in other domains, their
application in the medical domain have been limited. In addition to modeling
user-item interactions, we show that deep-learning based recommender systems
can be used to model subject-disease code interactions. Two novel applications
of deep learning-based recommender systems using Neural Collaborative Filtering
(NCF) and Deep Hybrid Filtering (DHF) were utilized for disease diagnosis based
on known past patient comorbidities. Two datasets, one incorporating all
subject-disease code pairs present in the MIMIC-III database, and the other
incorporating the top 50 most commonly occurring diseases, were used for
prediction. Accuracy and Hit Ratio@10 were utilized as metrics to estimate
model performance. The performance of the NCF model making use of the reduced
"top 50" ICD-9 code dataset was found to be lower (accuracy of ~80% and hit
ratio@10 of 35%) as compared to the performance of the NCF model trained on all
ICD-9 codes (accuracy of ~90% and hit ratio@10 of ~80%). Reasons for the
superior performance of the sparser dataset with all ICD codes can be mainly
attributed to the higher volume of data and the robustness of deep-learning
based recommender systems with modeling sparse data. Additionally, results from
the DHF models reflect better performance than the NCF models, with a better
accuracy of 94.4% and hit ratio@10 of 85.36%, reflecting the importance of the
incorporation of clinical note information. Additionally, compared to
literature reports utilizing primarily natural language processing-based
predictions for the task of ICD-9 code co-occurrence, the novel deep
learning-based recommender systems approach performed better. Overall, the deep
learning-based recommender systems have shown promise in predicting disease
comorbidity.