Background
Occupational exposures at the WTC site after 11 September 2001 have been associated with presumably inflammatory chronic lower airway diseases.
Aims
In this study, we describe the trajectories of expiratory air flow decline, identify subgroups with adverse progression, and investigate the association of those trajectories with quantitative computed tomography (QCT) imaging measurement of increased and decreased lung density.
Methods
We examined the trajectories of expiratory air flow decline in a group of 1,321 former WTC workers and volunteers with at least three periodic spirometries, and using QCT‐measured low (LAV%, −950 HU) and high (HAV%, from −600 to −250 HU) attenuation volume percent. We calculated the individual regression line slopes for first‐second forced expiratory volume (FEV1slope), identified subjects with rapidly declining (“accelerated decliners”) and increasing (“improved”), and compared them to subjects with “intermediate” (0 to −66.5 mL/year) FEV1slope. We then used multinomial logistic regression to model those three trajectories, and the two lung attenuation metrics.
Results
The mean longitudinal FEV1 slopes for the entire study population, and its intermediate, decliner, and improved subgroups were, respectively, −40.4, −34.3, −106.5, and 37.6 mL/year. In unadjusted and adjusted analyses, LAV% and HAV% were both associated with “accelerated decliner” status (ORadj, 95% CI 2.37, 1.41–3.97, and 1.77, 1.08–2.89, respectively), compared to the intermediate decline.
Conclusions
Longitudinal FEV1 decline in this cohort, known to be associated with QCT proximal airway inflammation metric, is also associated with QCT indicators of increased and decreased lung density. The improved FEV1 trajectory did not seem to be associated with lung density metrics.
