Longitudinal Microbial and Molecular Dynamics in the Cystic Fibrosis Lung after Elexacaftor-Tezacaftor-Ivacaftor therapy

Abstract: Background Cystic fibrosis (CF) is a genetic disorder causing poor mucociliary clearance in the airways and subsequent respiratory infection. The recently approved triple therapy Elexacaftor-Tezacaftor-Ivacaftor (ETI) has significantly improved the lung function and decreased airway infection of persons with CF (pwCF). This improvement has been shown to occur rapidly, within the first few weeks of treatment. The effects of longer term ETI therapy on lung infection dynamics, however, remains mostly unknown. Re… Show more

“…19 Furthermore, although the development of novel modulators has resulted in improved outcomes in pwCF, chronic microbial-based infections in their airways persist. 4,5,7 Therefore, we propose that this in vitro community model represents an ideal platform to explore the mechanisms allowing these communities to thrive in the CF lung in the presence of these modulators.…”

Growing a cystic fibrosis-relevant polymicrobial biofilm to probe community phenotypes

“…19 Furthermore, although the development of novel modulators has resulted in improved outcomes in pwCF, chronic microbial-based infections in their airways persist. 4,5,7 Therefore, we propose that this in vitro community model represents an ideal platform to explore the mechanisms allowing these communities to thrive in the CF lung in the presence of these modulators.…”

Growing a cystic fibrosis-relevant polymicrobial biofilm to probe community phenotypes