Particulate matter linked to increased hospital procedures in heart failure patients

Long-term exposure to fine particulate matter air pollution was associated with an increase in hospital procedures in heart failure patients, according to a study published May 3, 2023, in the open-access journal PLOS ONE by Samantha Catalano from the University of North Carolina at Chapel Hill, U.S., and colleagues.

Tiny airborne particles smaller than 2.5μm in diameter (PM2.5) are air pollutants generated by traffic, industry activity, combustion, and more. Though exposure to PM2.5 has been associated with illness and death worldwide, few studies have quantified this link using hospital procedures. In this study, the authors analyzed the effect of long-term PM2.5 exposure on hospital procedures in patients with heart failure.

The researchers examined electronic health records for 20,920 patients diagnosed with heart failure, 15,979 of whom subsequently received at least one of 53 common (frequency > 10%) procedures within the University of North Carolina Healthcare System from 2004 to 2016. Researchers used each patient’s address alongside the date of their heart failure diagnosis to map and analyze environmental exposure data alongside their health records.

The analysis revealed that three specific procedures were significantly more likely to be performed on patients with increased PM2.5 exposure: stress tests (6.84% increase per 1 μg/m3 increase in PM2.5), glycosylated hemoglobin tests, which screen for diabetes (10.8% increase), and prothrombin time tests, which evaluate blood clotting (15.8% increase). Prothrombin time tests remained significantly linked to this exposure even after adjusting for access to health care and healthy food based on county.

Since all three of these tests relate to diagnostic testing for cardiorespiratory health, the authors posit that their results provide evidence of patients with high PM2.5 exposure experiencing more cardiovascular morbidity, prompting health care professionals to perform more diagnostic tests.

The health records that form the basis of this research did not include individual-level socioeconomic data, nor data on procedures that may have been performed outside of the University of North Carolina Healthcare System (unless the records were transferred). Nonetheless, these results will assist future researchers in better estimating the burden of PM2.5 exposure on patients and hospital systems.

The authors add, “Associations between PM2.5 and hospital procedures can give us unique insight into the impacts of PM2.5 exposure on both patients and the health care system. We observed increased performance of diagnostic procedures with increased PM2.5 exposure, which fit with the known mechanisms of PM2.5 exposure. This research provides evidence that hospital procedures can be a unique lens through which to view the health effects of air pollution exposure.”

More information:
Associations between long-term fine particulate matter exposure and hospital procedures in heart failure patients, PLOS ONE (2023). DOI: 10.1371/journal.pone.0283759

Journal information:
PLoS ONE

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