J Michael Wells1,2,3, Douglas A Arenberg4, Igor Barjaktarevic5, Surya P Bhatt1,2, Russell P Bowler6,7, Stephanie A Christenson8, David J Couper9, Mark T Dransfield1,2,3, MeiLan K Han4, Eric A Hoffman10, Robert J Kaner11, Victor Kim12, Eric Kleerup13, Fernando J Martinez11, Wendy C Moore13, Sarah L O'Beirne11, Robert Paine14,15, Nirupama Putcha16, Sanjeev M Raman14, R Graham Barr17, Stephen I Rennard18,19, Prescott G Woodruff8, Jeffrey L Curtis4,20. 1. 1 Division of Pulmonary, Allergy, and Critical Care Medicine, and. 2. 2 UAB Lung Health Center, University of Alabama at Birmingham, Birmingham, Alabama. 3. 3 Birmingham VA Medical Center, Birmingham, Alabama. 4. 4 Division of Pulmonary and Critical Care Medicine, University of Michigan, Ann Arbor, Michigan. 5. 5 Division of Pulmonary and Critical Care Medicine, University of California, Los Angeles, Los Angeles, California. 6. 6 Division of Pulmonary and Critical Care Medicine, National Jewish Health, Denver, Colorado. 7. 7 University of Colorado at Denver, Aurora, Colorado. 8. 8 Division of Pulmonary and Critical Care Medicine, University of California, San Francisco, San Francisco, California. 9. 9 Marsico Lung Institute, Department of Medicine, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina. 10. 10 Department of Radiology, University of Iowa, Iowa City, Iowa. 11. 11 Departments of Medicine and Genetic Medicine, Weill Cornell Medicine, New York, New York. 12. 12 Department of Thoracic Medicine and Surgery, Lewis Katz School of Medicine, Temple University, Philadelphia, Pennsylvania. 13. 13 Wake Forest University, Winston-Salem, North Carolina. 14. 14 Division of Respiratory, Critical Care, and Occupational Pulmonary Medicine, University of Utah, Salt Lake City, Utah. 15. 15 Salt Lake City VA Medical Center, Salt Lake City, Utah. 16. 16 Division of Pulmonary and Critical Care Medicine, Johns Hopkins University, Baltimore, Maryland. 17. 17 Division of Pulmonary, Allergy, and Critical Care Medicine, Columbia University, New York, New York. 18. 18 IMED Biotech Unit, AstraZeneca, Cambridge, United Kingdom. 19. 19 Division of Pulmonary, Critical Care, Sleep, and Allergy, University of Nebraska Medical Center, Omaha, Nebraska; and. 20. 20 VA Ann Arbor Healthcare System, Ann Arbor, Michigan.
Abstract
RATIONALE: There is an unmet need to investigate the lower airways in chronic obstructive pulmonary disease (COPD) to define pathogenesis and to identify potential markers to accelerate therapeutic development. Although bronchoscopy is well established to sample airways in various conditions, a comprehensive COPD research protocol has yet to be published. OBJECTIVES: To evaluate the safety and tolerability of a comprehensive research bronchoscopy procedure suitable for multicenter trials and to identify factors associated with adverse events. METHODS: We report the detailed methodology used to conduct the bronchoscopy used in SPIROMICS (the Subpopulations and Intermediate Outcome Measures in COPD Study). The protocol entailed collection of tongue scrapings and oral rinses as well as bronchoscopy with airway inspection, bronchoalveolar lavage (BAL), protected brushings, and endobronchial biopsies. Visual airway characteristics were graded on a scale of 0 (normal appearance) to 3 (severe abnormality) in four domains: erythema, edema, secretions, and friability. Adverse events were defined as events requiring intervention. Logistic regression modeling assessed associations between adverse event occurrence and key variables. RESULTS: We enrolled 215 participants. They were 61 ± 9 years old, 71% were white, 53% were male, and post-bronchodilator forced expiratory volume in 1 second was 89 ± 19% predicted. Self-reported asthma was present in 22% of bronchoscopy participants. Oral samples were obtained in greater than or equal to 99% of participants. Airway characteristics were recorded in 99% and were most often characterized as free of edema (61.9%). Less than 50% reported secretions, friability, or erythema. BAL yielded 111 ± 57 ml (50%) of the 223 ± 65 ml of infusate, brushes were completed in 98%, and endobronchial biopsies were performed in 82% of procedures. Adverse events requiring intervention occurred in 14 (6.7%) of 208 bronchoscopies. In logistic regression models, female sex (risk ratio [RR], 1.10; 95% confidence interval [CI], 1.02-1.19), self-reported asthma (RR, 1.17; 95% CI, 1.02-1.34), bronchodilator reversibility (RR, 1.17; 95% CI, 1.04-1.32), COPD (RR, 1.10; 95% CI, 1.02-1.20), forced expiratory volume in 1 second (RR, 0.97; 95% CI, 0.95-0.99), and secretions (RR, 1.85; 1.08-3.16) or friability (RR, 1.64; 95% CI, 1.04-2.57) observed during bronchoscopy were associated with adverse events. CONCLUSIONS: A research bronchoscopy procedure that includes oral sampling, BAL, endobronchial biopsy, and brushing can be safely performed. Airway characteristics during bronchoscopy, demographics, asthma or COPD, and lung function may convey increased risk for procedure-related events necessitating intervention.
RATIONALE: There is an unmet need to investigate the lower airways in chronic obstructive pulmonary disease (COPD) to define pathogenesis and to identify potential markers to accelerate therapeutic development. Although bronchoscopy is well established to sample airways in various conditions, a comprehensive COPD research protocol has yet to be published. OBJECTIVES: To evaluate the safety and tolerability of a comprehensive research bronchoscopy procedure suitable for multicenter trials and to identify factors associated with adverse events. METHODS: We report the detailed methodology used to conduct the bronchoscopy used in SPIROMICS (the Subpopulations and Intermediate Outcome Measures in COPD Study). The protocol entailed collection of tongue scrapings and oral rinses as well as bronchoscopy with airway inspection, bronchoalveolar lavage (BAL), protected brushings, and endobronchial biopsies. Visual airway characteristics were graded on a scale of 0 (normal appearance) to 3 (severe abnormality) in four domains: erythema, edema, secretions, and friability. Adverse events were defined as events requiring intervention. Logistic regression modeling assessed associations between adverse event occurrence and key variables. RESULTS: We enrolled 215 participants. They were 61 ± 9 years old, 71% were white, 53% were male, and post-bronchodilator forced expiratory volume in 1 second was 89 ± 19% predicted. Self-reported asthma was present in 22% of bronchoscopy participants. Oral samples were obtained in greater than or equal to 99% of participants. Airway characteristics were recorded in 99% and were most often characterized as free of edema (61.9%). Less than 50% reported secretions, friability, or erythema. BAL yielded 111 ± 57 ml (50%) of the 223 ± 65 ml of infusate, brushes were completed in 98%, and endobronchial biopsies were performed in 82% of procedures. Adverse events requiring intervention occurred in 14 (6.7%) of 208 bronchoscopies. In logistic regression models, female sex (risk ratio [RR], 1.10; 95% confidence interval [CI], 1.02-1.19), self-reported asthma (RR, 1.17; 95% CI, 1.02-1.34), bronchodilator reversibility (RR, 1.17; 95% CI, 1.04-1.32), COPD (RR, 1.10; 95% CI, 1.02-1.20), forced expiratory volume in 1 second (RR, 0.97; 95% CI, 0.95-0.99), and secretions (RR, 1.85; 1.08-3.16) or friability (RR, 1.64; 95% CI, 1.04-2.57) observed during bronchoscopy were associated with adverse events. CONCLUSIONS: A research bronchoscopy procedure that includes oral sampling, BAL, endobronchial biopsy, and brushing can be safely performed. Airway characteristics during bronchoscopy, demographics, asthma or COPD, and lung function may convey increased risk for procedure-related events necessitating intervention.
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