Author: Mollalo, Abolfazl; Vahedi, Behrooz; Bhattarai, Shreejana; Hopkins, Laura C.; Banik, Swagata; Vahedi, Behzad
Title: Predicting the Hotspots of Age-Adjusted Mortality Rates of Lower Respiratory Infection across the Continental United States: Integration of GIS, Spatial Statistics and Machine Learning Algorithms Cord-id: r4vf80m7 Document date: 2020_8_22
ID: r4vf80m7
Snippet: OBJECTIVE: Although lower respiratory infections (LRI) are among the leading causes of mortality in the United States, their association with underlying factors and geographic variation have not been adequately examined. METHODS: In this study, explanatory variables (n = 46) including climatic, topographic, socio-economic, and demographic factors were compiled at the county level across the continental US. Machine learning algorithms - logistic regression (LR), random forest (RF), gradient boost
Document: OBJECTIVE: Although lower respiratory infections (LRI) are among the leading causes of mortality in the United States, their association with underlying factors and geographic variation have not been adequately examined. METHODS: In this study, explanatory variables (n = 46) including climatic, topographic, socio-economic, and demographic factors were compiled at the county level across the continental US. Machine learning algorithms - logistic regression (LR), random forest (RF), gradient boosting decision trees (GBDT), k-nearest neighbors (KNN), and support vector machine (SVM) - were used to predict the presence/absence of hotspots (P < 0.05) for elevated age-adjusted LRI mortality rates in a geographic information system framework. RESULTS: Overall, there was a historical shift in hotspots away from the western United States into the southeastern parts of the country and they were highly localized in a few counties. The two decision tree methods (RF and GBDT) outperformed the other algorithms (accuracies: 0.92; F1-scores: 0.85 and 0.84; area under the precision-recall curve: 0.84 and 0.83, respectively). Moreover, the results of the RF and GBDT indicated that higher spring minimum temperature, increased winter precipitation, and higher annual median household income were among the most substantial factors in predicting the hotspots. CONCLUSIONS: This study helps raise awareness of public health decision-makers to develop and target LRI prevention programs.
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