Informatics Tool Accurately Detects Antibiotic Allergy Adverse Events

May 31, 2023 - Researchers have developed a health informatics tool capable of detecting antibiotic allergy adverse events in near real-time, which may help provide clinicians with feedback about the harms of prolonged antibiotic exposure, according to a study published recently in JAMA Network Open.

The Centers for Disease Control and Prevention (CDC) report that adverse events from antibiotics are one of the most common types of adverse drug events (ADEs) from specific medicines. Approximately 16 percent of all emergency department (ED) visits for ADEs are estimated to be caused by antibiotics, with variations reported based on patient demographics such as age.

About 82 percent of ED visits for antibiotic-related ADEs are due to allergic reactions. Research indicates that discrepancies between self-reported antibiotic allergies and true allergies, inaccurate reporting of antibiotic hypersensitivities, and unnecessary use of antibiotics may contribute to this phenomenon.

Identifying when antibiotic allergic-type events occur and subsequently linking these reactions to particular drug exposures is crucial, particularly for patients who are hospitalized or undergoing surgery. However, standardized processes to flag these events are limited.

To address this, researchers designed an algorithm to improve the detection of antibiotic allergy adverse events.

 The research team gathered data from 36,344 patients at Veteran Affairs (VA) hospitals who underwent cardiovascular implantable electronic device (CIED) procedures and received periprocedural antibiotic prophylaxis from October 1, 2015, to September 30, 2019.

Patients were split into training and testing cohorts, and the researchers manually reviewed each case to determine the presence of allergic-type reactions and their severity.

The research team selected variables deemed potentially indicative of allergic-type reactions—including reported and observed allergies contained in the VA’s Allergy Reaction Tracking (ART) system, allergy diagnosis codes, medications given to treat an allergic reaction, and text searches of clinical notes for phrases that may indicate an antibiotic allergy reaction— to develop the tool.

The model was developed on these data from the training cohort and then applied to the testing cohort.

Overall, the tool identified antibiotic allergic-type reactions with an estimated probability of 30 percent or more, a positive predictive value of 61 percent, and a sensitivity of 87 percent.

The final algorithm included seven variables to detect antibiotic allergic-type reactions: entries in the VA’s ART, both reported and observed; antihistamine administration; keyword detection in clinical notes; and PheCodes for “urticaria,” “symptoms affecting skin,” and “allergy or adverse event to an antibiotic.”

These findings indicate that an informatics tool could potentially improve the detection of periprocedural antibiotic allergy adverse events, which could help provide clinicians with feedback concerning the harms that can result from unnecessarily prolonged antibiotic use.

This research is the latest to leverage data analytics and health informatics to advance antibiotic stewardship.

Last year, University of Florida (UF) Health researchers developed a clinical decision-making tool that can determine whether a case of pediatric diarrhea is caused solely by a virus or by bacterial infection, which influences whether a patient should be treated with antibiotics.

Most pediatric diarrhea cases in developing countries are treated with antibiotics regardless of their cause, leading to antibiotic resistance. Using the tool, the researchers found that when the predicted probability of viral-only diarrhea increased, antibiotic prescriptions fell.