Natural Language Processing Improves Reliable Identification of COVID-19 Compared to Diagnostic Codes Alone.

Observational COVID-19 studies often rely on diagnostic codes, but their accuracy and potential for differential misclassification across patient subgroups are unclear. In this proof of concept study, we examined age, race, and ethnicity as predictors of differential misclassification by comparing the classification accuracy of diagnostic codes to classifiers based on natural language processing (NLP) of clinical notes. We assessed differential misclassification in two primary care-based samples from the American Family Cohort: first, a cohort of 5000 patients with COVID-19 status assessed by physicians based on notes; and second, 21,659 patients (out of 1,560,564) who received COVID-specific antivirals. Using annotated note data, we trained and tested three NLP classifiers (tree-based, recurrent neural network, and transformer-based). Approximately 63% of likely COVID-19 patients in the two samples had a documented ICD-10 code for COVID-19. Sensitivity was highest among younger patients (68.6% for <18 years versus 60.6% for those 75+), and for Hispanic patients (68.0% versus 58.5% for Black/African American patients). The tree-based classifier had the highest area under the ROC curve (0.92), although it was less accurate among older patients. NLP performance drastically worsened predicting data collected post-training. While NLP may improve cohort identification, frequent retraining is likely needed to capture changing documentation.