The effects of natural language processing on cross-institutional portability of influenza case detection for disease surveillance

Jeffrey P Ferraro; Ye Ye; Per H Gesteland; Peter J Haug; Fuchiang Rich Tsui; Gregory F Cooper; Rudy Van Bree; Thomas Ginter; Andrew J Nowalk; Michael Wagner

doi:10.4338/ACI-2016-12-RA-0211

The effects of natural language processing on cross-institutional portability of influenza case detection for disease surveillance

Appl Clin Inform. 2017 May 31;8(2):560-580. doi: 10.4338/ACI-2016-12-RA-0211.

Authors

Jeffrey P Ferraro¹, Ye Ye, Per H Gesteland, Peter J Haug, Fuchiang Rich Tsui, Gregory F Cooper, Rudy Van Bree, Thomas Ginter, Andrew J Nowalk, Michael Wagner

Affiliation

¹ Jeffrey P. Ferraro, Homer Warner Center | Intermountain Healthcare, 5171 South Cottonwood St, Suite 220, Murray, Utah 84107, Jeffrey.Ferraro@imail.org, Tel: 801-244-6570.

Abstract

Objectives: This study evaluates the accuracy and portability of a natural language processing (NLP) tool for extracting clinical findings of influenza from clinical notes across two large healthcare systems. Effectiveness is evaluated on how well NLP supports downstream influenza case-detection for disease surveillance.

Methods: We independently developed two NLP parsers, one at Intermountain Healthcare (IH) in Utah and the other at University of Pittsburgh Medical Center (UPMC) using local clinical notes from emergency department (ED) encounters of influenza. We measured NLP parser performance for the presence and absence of 70 clinical findings indicative of influenza. We then developed Bayesian network models from NLP processed reports and tested their ability to discriminate among cases of (1) influenza, (2) non-influenza influenza-like illness (NI-ILI), and (3) 'other' diagnosis.

Results: On Intermountain Healthcare reports, recall and precision of the IH NLP parser were 0.71 and 0.75, respectively, and UPMC NLP parser, 0.67 and 0.79. On University of Pittsburgh Medical Center reports, recall and precision of the UPMC NLP parser were 0.73 and 0.80, respectively, and IH NLP parser, 0.53 and 0.80. Bayesian case-detection performance measured by AUROC for influenza versus non-influenza on Intermountain Healthcare cases was 0.93 (using IH NLP parser) and 0.93 (using UPMC NLP parser). Case-detection on University of Pittsburgh Medical Center cases was 0.95 (using UPMC NLP parser) and 0.83 (using IH NLP parser). For influenza versus NI-ILI on Intermountain Healthcare cases performance was 0.70 (using IH NLP parser) and 0.76 (using UPMC NLP parser). On University of Pisstburgh Medical Center cases, 0.76 (using UPMC NLP parser) and 0.65 (using IH NLP parser).

Conclusion: In all but one instance (influenza versus NI-ILI using IH cases), local parsers were more effective at supporting case-detection although performances of non-local parsers were reasonable.

Keywords: Natural language processing; case detection; disease surveillance; generalizability; portability.

Publication types

Research Support, N.I.H., Extramural

MeSH terms

Academic Medical Centers
Electronic Health Records
Epidemiological Monitoring*
Humans
Influenza, Human / epidemiology*
Medical Informatics / methods*
Natural Language Processing*
Public Health

Grants and funding

R01 LM011370/LM/NLM NIH HHS/United States