TY - CONF
T1 - The airway microbiome in Bronchiectasis-COPD overlap
T2 - European Respiratory Society (ERS) 2023
AU - Keir, Holly R.
AU - Dicker, Alison j.
AU - Richardson, Hollian
AU - Kewin, Ellie
AU - Perea Soriano, Lidia
AU - Pollock, Jennifer
AU - Giam, Yan H
AU - Crichton, Megan
AU - Choi, Hayoung
AU - Cant, Erin
AU - Finch, Simon
AU - Fong, Christopher J.
AU - Blasi, Francesco
AU - Shoemark, Amelia
AU - Sibila, Oriol
AU - Aliberti, Stefano
AU - Chalmers, James D
PY - 2023/9/10
Y1 - 2023/9/10
N2 - Introduction: Bronchiectasis (BE) and chronic obstructive pulmonary disease (COPD) share similar clinical characteristics and are frequently co-diagnosed (BE-COPD). BE-COPD is associated with worse outcomes but the mechanisms of this are unknown.Aim: To investigate differences in the lung microbiome in BE and BE-COPD overlap.Methods: Stable BE and BE-COPD patients were enrolled from a single UK centre. BE-COPD was defined using the objective ROSE criteria. The sputum microbiome was evaluated using 16S rRNA sequencing. Alpha-diversity was analysed using Shannon Wiener (SWDI), Chao1 (CI) and Simpson Index (SI). Results were validated in the EMBARC-BRIDGE cohort from UK, Italy and Spain.Results: 281 patients were enrolled (BE n=176, BE-COPD n=105), 52.3% female, age 68 (±12.6). Proteobacteria were the most abundant phyla, and Haemophilus and Streptococcus the most abundant genera. Alpha diversity was significantly lower in BE-COPD group (SWDI p=0.02, CI p=0.04, SI p=0.03). No difference in beta-diversity was seen between the groups (PERMANOVA, p=0.33). Random Forest analysis identified reduced commensal taxa in the BE-COPD group, including lower Neisseria, Prevotella, Campylobacter and Fusobacterium. 208 patients were enrolled in the EMBARC BRIDGE cohort (BE=147, BE-COPD=61). Alpha diversity was reduced in the BE-COPD group (SWDI p=0.06, CI p=0.02, SI p=0.03) and there were significant changes in beta-diversity (PERMANOVA, p=0.02). Similarly, Random Forest detected depletion of Neisseria, Prevotella, Campylobacter in the BE-COPD arm.Conclusion: We demonstrate in two large cohorts that BE-COPD is associated with reduced microbial diversity and depletion of anti-inflammatory commensal taxa.
AB - Introduction: Bronchiectasis (BE) and chronic obstructive pulmonary disease (COPD) share similar clinical characteristics and are frequently co-diagnosed (BE-COPD). BE-COPD is associated with worse outcomes but the mechanisms of this are unknown.Aim: To investigate differences in the lung microbiome in BE and BE-COPD overlap.Methods: Stable BE and BE-COPD patients were enrolled from a single UK centre. BE-COPD was defined using the objective ROSE criteria. The sputum microbiome was evaluated using 16S rRNA sequencing. Alpha-diversity was analysed using Shannon Wiener (SWDI), Chao1 (CI) and Simpson Index (SI). Results were validated in the EMBARC-BRIDGE cohort from UK, Italy and Spain.Results: 281 patients were enrolled (BE n=176, BE-COPD n=105), 52.3% female, age 68 (±12.6). Proteobacteria were the most abundant phyla, and Haemophilus and Streptococcus the most abundant genera. Alpha diversity was significantly lower in BE-COPD group (SWDI p=0.02, CI p=0.04, SI p=0.03). No difference in beta-diversity was seen between the groups (PERMANOVA, p=0.33). Random Forest analysis identified reduced commensal taxa in the BE-COPD group, including lower Neisseria, Prevotella, Campylobacter and Fusobacterium. 208 patients were enrolled in the EMBARC BRIDGE cohort (BE=147, BE-COPD=61). Alpha diversity was reduced in the BE-COPD group (SWDI p=0.06, CI p=0.02, SI p=0.03) and there were significant changes in beta-diversity (PERMANOVA, p=0.02). Similarly, Random Forest detected depletion of Neisseria, Prevotella, Campylobacter in the BE-COPD arm.Conclusion: We demonstrate in two large cohorts that BE-COPD is associated with reduced microbial diversity and depletion of anti-inflammatory commensal taxa.
KW - Bronchiectasis
KW - COPD
KW - Mirobiome/Microbiota
U2 - 10.1183/13993003.congress-2023.PA382
DO - 10.1183/13993003.congress-2023.PA382
M3 - Paper
SP - PA382
Y2 - 9 September 2023 through 13 September 2023
ER -