AI Article Synopsis
- There is significant debate over whether to include race in spirometry reference equations, especially for children's lung function, which is crucial for diagnosing respiratory illnesses like asthma.
- Racial bias in lung function assessment is a concern given that racial/ethnic minorities face a higher burden of respiratory diseases.
- The authors argue against using race-specific equations due to their limited and biased reference populations and emphasize the need to explore environmental factors that impact lung development instead.
Article Abstract
The continued inclusion of race in spirometry reference equations is a topic of intense debate for adult lung function, but less discussion has focused on implications for children. Obtaining accurate estimates of children's lung function is an important component of the diagnosis of childhood respiratory illnesses, including asthma, cystic fibrosis, and interstitial lung disease. Given the higher burden among racial/ethnic minorities for many respiratory illnesses, it is critical to avoid racial bias in interpreting lung function. We recommend against the continued use of race-specific reference equations for a number of reasons. The original reference populations used to develop the equations were comprised of children with restricted racial diversity, relatively small sample sizes, and likely included some unhealthy children. Moreover, there is no scientific justification for innate racial differences in lung function, as there is no clear physiological or genetic explanation for the disparities. Alternatively, many environmental factors harm lung development, including allergens from pests, asbestos, lead, prenatal smoking, and air pollution, as well as preterm birth and childhood respiratory illnesses, which are all more common among minority racial groups. Race-neutral equations may provide a temporary solution, but still rely on the racial diversity of the reference populations used to build them. Ultimately researchers must uncover the underlying factors truly driving racial differences in lung function.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11601010 | PMC |
| http://dx.doi.org/10.1002/ppul.26444 | DOI Listing |
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