Eliminating racially adjusted spirometry results could lead to a significant increase in Black patient participation in COPD clinical trials, according to findings presented at ATS 2024.


RT’s Three Key Takeaways:

  1. Using race-neutral spirometry equations results in a higher percentage of Black patients qualifying for COPD clinical trials, potentially enhancing diversity and representation in medical research.
  2. The study observed that race-neutral equations tend to decrease the severity level for white subjects while increasing it for Black subjects, affecting eligibility criteria for clinical trials.
  3. The findings underscore the need for further investigation into race-neutral inclusion criteria and their impact on clinical trial selection, as well as the potential role of race-independent STAR staging.

Equations that don’t use racially and ethnically adjusted spirometry results to help determine eligibility for chronic obstructive pulmonary disease (COPD) clinical trials may lead to higher percentages of Black patients enrolled, according to research published at the ATS 2024 International Conference.

“While other researchers have initiated investigations into the effects of adhering to the recent American Thoracic Society (ATS) guidance on utilizing Global Lung Function Initiative (GLI) race-neutral spirometry reference equations in clinical practice, our research has identified a gap in the literature regarding the impact of these equations on inclusion criteria in clinical trials,” says lead author Frank Sciurba, MD, professor of medicine, University of Pittsburgh School of Medicine and medical director of Pulmonary Physiology Lab, UPMC, in a release.

ATS Recommendations and Study Background

In 2023, an expert panel convened by the ATS issued a statement recommending that race and ethnicity no longer be considered factors in interpreting the results of spirometry. 

For many years, race-specific equations or adjustments have been used to interpret pulmonary function test (spirometry) results. This approach requires results for Black patients to be lower—sometimes, up to 15% lower than for white patients.     

Impact of Race-Neutral Equations

“In our study, we saw a discernible pattern in which race-neutral equations tend to decrease the severity level for self-identified white subjects, while concurrently increasing severity for self-identified Black subjects,” says corresponding author Chad Karoleski, BA, research IT specialist at the University of Pittsburgh Emphysema COPD Research Center, in a release. “This resulted in a GOLD stage shift which led to more Black subjects and fewer white subjects meeting typical spirometric inclusion criteria for COPD clinical trials.”

Global Initiative for Chronic Obstructive Lung Disease (GOLD) classifications are used to determine COPD clinical trial eligibility, with those testing at the GOLD 2 (moderate) and GOLD 3 (severe) levels typically deemed eligible.

Research Methodology and Findings

To test the potential effects of the new guidelines the team looked at participants from the Combined Pittsburgh Lung Cohort, who had spirometry performed. The predicted values were calculated for both GLI ethnic-adjusted and GLI Global race-neutral equations to identify the FEV1 percent and resultant GOLD stage for each individual with each reference approach. 

They conducted an analysis of the shift in GOLD category overall and by self-reported race.

The researchers identified 3,716 (3,474 self-identified white and 242 self-identified Black) individuals with a baseline spirometry evaluation demonstrating an FEV1/FVC ratio <0.7 for inclusion in the study.  

When using the race-neutral reference equations instead of the race-adjusted equations, 5.8% of individuals became ineligible, while 2.1% were considered eligible, with all cases of decreasing GOLD stage occurring in white individuals and all cases of increasing GOLD stage occurring in Black individuals. 

Overall, 1.6% of white and 8.3% of Black patients gained eligibility, while 6% of whites and 2.9% of Blacks were no longer eligible.

Spirometry and Future Implications

Spirometry is the most common pulmonary function test used to diagnose lung disease and determine its severity. FEV1 is the volume of air expired in the first second of a forced exhalation and is typically represented as a percentage of age-, height- and sex-adjusted predicted value (and recently recommended to exclude racial adjustment). 

FEV1/FVC is a calculated ratio used in the diagnosis of obstructive disease. It represents the proportion of a person’s vital capacity that they can exhale in the first second during a forced exhalation from full inhalation.  

“We anticipate that our findings will stimulate further discussion and investigation into the development of appropriate inclusion criteria, guided by the ATS recommendation of using race-neutral spirometry reference equations,” says Karoleski in a release. “Future research will be needed to determine the implication of these shifts on appropriate clinical trial selection, while the role of the race-independent classification STAR staging in clinical trial selection, based exclusively on FEV1/FVC ratio, also warrants evaluation.

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