1. The Association Between Lung Hyperinflation and Coronary Artery Disease in Smokers
- Author
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Divay Chandra, Aman Gupta, Gregory L. Kinney, Carl R. Fuhrman, Joseph K. Leader, Alejandro A. Diaz, Jessica Bon, R. Graham Barr, George Washko, Matthew Budoff, John Hokanson, Frank C. Sciurba, James D. Crapo, Edwin K. Silverman, Barry J. Make, Elizabeth A. Regan, Terri Beaty, Ferdouse Begum, Adel R. Boueiz, Peter J. Castaldi, Michael Cho, Dawn L. DeMeo, Marilyn G. Foreman, Eitan Halper-Stromberg, Lystra P. Hayden, Craig P. Hersh, Jacqueline Hetmanski, Brian D. Hobbs, John E. Hokanson, Nan Laird, Christoph Lange, Sharon M. Lutz, Merry-Lynn McDonald, Margaret M. Parker, Dmitry Prokopenko, Dandi Qiao, Phuwanat Sakornsakolpat, Emily S. Wan, Sungho Won, Mustafa Al Qaisi, Harvey O. Coxson, Teresa Gray, MeiLan K. Han, Eric A. Hoffman, Stephen Humphries, Francine L. Jacobson, Philip F. Judy, Ella A. Kazerooni, Alex Kluiber, David A. Lynch, John D. Newell, James C. Ross, Raul San Jose Estepar, Joyce Schroeder, Jered Sieren, Douglas Stinson, Berend C. Stoel, Juerg Tschirren, Edwin Van Beek, Bram van Ginneken, Eva van Rikxoort, Carla G. Wilson, Robert Jensen, Jim Crooks, Douglas Everett, Camille Moore, null Strand, John Hughes, Gregory Kinney, Katherine Pratte, Kendra A. Young, Surya Bhatt, Carlos Martinez, Susan Murray, Xavier Soler, Farnoush Banaei-Kashani, Russell P. Bowler, Katerina Kechris, Jeffrey L. Curtis, Perry G. Pernicano, Nicola Hanania, Mustafa Atik, Aladin Boriek, Kalpatha Guntupalli, Elizabeth Guy, Amit Parulekar, Craig Hersh, John Austin, Belinda D’Souza, Byron Thomashow, Neil MacIntyre, H. Page McAdams, Lacey Washington, Charlene McEvoy, Joseph Tashjian, Robert Wise, Robert Brown, Nadia N. Hansel, Karen Horton, Allison Lambert, Nirupama Putcha, Richard Casaburi, Alessandra Adami, Hans Fischer, Janos Porszasz, Harry Rossiter, William Stringer, Michael E. DeBakey, Amir Sharafkhaneh, Charlie Lan, Christine Wendt, Brian Bell, Ken M. Kunisaki, Eugene Berkowitz, Gloria Westney, Russell Bowler, Richard Rosiello, David Pace, Gerard Criner, David Ciccolella, Francis Cordova, Chandra Dass, Gilbert D’Alonzo, Parag Desai, Michael Jacobs, Steven Kelsen, Victor Kim, A. James Mamary, Nathaniel Marchetti, Aditi Satti, Kartik Shenoy, Robert M. Steiner, Alex Swift, Irene Swift, Maria Elena Vega-Sanchez, Mark Dransfield, William Bailey, Surya P. Bhatt, Anand Iyer, Hrudaya Nath, J. Michael Wells, Joe Ramsdell, Paul Friedman, Andrew Yen, Alejandro P. Comellas, Karin F. Hoth, John Newell, Brad Thompson, Ella Kazerooni, Carlos H. Martinez, Joanne Billings, Abbie Begnaud, Tadashi Allen, Frank Sciurba, Carl Fuhrman, Joel Weissfeld, Antonio Anzueto, Sandra Adams, Diego Maselli-Caceres, and Mario E. Ruiz
- Subjects
Male ,Pulmonary and Respiratory Medicine ,medicine.medical_specialty ,Coronary Artery Disease ,Critical Care and Intensive Care Medicine ,COPD: Original Research ,Coronary artery disease ,03 medical and health sciences ,FEV1/FVC ratio ,0302 clinical medicine ,Functional residual capacity ,Risk Factors ,Internal medicine ,medicine ,Humans ,Lung volumes ,030212 general & internal medicine ,Myocardial infarction ,Lung ,Subclinical infection ,COPD ,business.industry ,Smoking ,Organ Size ,Middle Aged ,respiratory system ,medicine.disease ,Coronary Vessels ,United States ,Respiratory Function Tests ,respiratory tract diseases ,Airway Obstruction ,Plethysmography ,Biological Variation, Population ,Pulmonary Emphysema ,030228 respiratory system ,Asymptomatic Diseases ,Cohort ,Cardiology ,Airway Remodeling ,Female ,Tomography, X-Ray Computed ,Cardiology and Cardiovascular Medicine ,business - Abstract
BACKGROUND: Smokers manifest varied phenotypes of pulmonary impairment. RESEARCH QUESTION: Which pulmonary phenotypes are associated with coronary artery disease (CAD) in smokers? STUDY DESIGN AND METHODS: We analyzed data from the University of Pittsburgh COPD Specialized Center for Clinically Oriented Research (SCCOR) cohort (n = 481) and the Genetic Epidemiology of COPD (COPDGene) cohort (n = 2,580). Participants were current and former smokers with > 10 pack-years of tobacco exposure. Data from the two cohorts were analyzed separately because of methodologic differences. Lung hyperinflation was assessed by plethysmography in the SCCOR cohort and by inspiratory and expiratory CT scan lung volumes in the COPDGene cohort. Subclinical CAD was assessed as the coronary artery calcium score, whereas clinical CAD was defined as a self-reported history of CAD or myocardial infarction (MI). Analyses were performed in all smokers and then repeated in those with airflow obstruction (FEV(1) to FVC ratio, < 0.70). RESULTS: Pulmonary phenotypes, including airflow limitation, emphysema, lung hyperinflation, diffusion capacity, and radiographic measures of airway remodeling, showed weak to moderate correlations (r < 0.7) with each other. In multivariate models adjusted for pulmonary phenotypes and CAD risk factors, lung hyperinflation was the only phenotype associated with calcium score, history of clinical CAD, or history of MI (per 0.2 higher expiratory and inspiratory CT scan lung volume; coronary calcium: OR, 1.2; 95% CI, 1.1-1.5; P = .02; clinical CAD: OR, 1.6; 95% CI, 1.1-2.3; P = .01; and MI in COPDGene: OR, 1.7; 95% CI, 1.0-2.8; P = .05). FEV(1) and emphysema were associated with increased risk of CAD (P < .05) in models adjusted for CAD risk factors; however, these associations were attenuated on adjusting for lung hyperinflation. Results were the same in those with airflow obstruction and were present in both cohorts. INTERPRETATION: Lung hyperinflation is associated strongly with clinical and subclinical CAD in smokers, including those with airflow obstruction. After lung hyperinflation was accounted for, FEV(1) and emphysema no longer were associated with CAD. Subsequent studies should consider measuring lung hyperinflation and examining its mechanistic role in CAD in current and former smokers.
- Published
- 2021