Safety and efficacy of the epithelial sodium channel blocker idrevloride in people with primary ciliary dyskinesia (CLEAN-PCD): a multinational, phase 2, randomised, double-blind, placebo-controlled crossover trial
- PMID: 37660715
- DOI: 10.1016/S2213-2600(23)00226-6
Safety and efficacy of the epithelial sodium channel blocker idrevloride in people with primary ciliary dyskinesia (CLEAN-PCD): a multinational, phase 2, randomised, double-blind, placebo-controlled crossover trial
Abstract
Background: Mucociliary clearance is dysfunctional in people with primary ciliary dyskinesia, resulting in the accumulation of dehydrated mucus in the airways that is difficult to clear. We undertook a study to assess the benefit on lung function of treatment with a nebulised epithelial sodium channel (ENaC) blocker, idrevloride, with or without hypertonic saline, in people with primary ciliary dyskinesia.
Methods: The CLEAN-PCD trial was a phase 2, randomised, double-blind, placebo-controlled crossover trial conducted at 32 tertiary adult and paediatric care centres and university hospitals in Canada, Denmark, Germany, Italy, the Netherlands, Poland, the UK, and the USA. People with a confirmed diagnosis of primary ciliary dyskinesia, aged 12 years or older, with a percentage of predicted FEV1 (ppFEV1) in the range of 40% to <90%, were randomly assigned in a 2:2:1:1 ratio (block size=6), stratified by ppFEV1 at screening, to one of four sequences: (1) idrevloride in hypertonic saline in treatment period 1 then hypertonic saline in treatment period 2; (2) hypertonic saline in treatment period 1 then idrevloride in hypertonic saline in treatment period 2; (3) idrevloride in treatment period 1 then placebo in treatment period 2; and (4) placebo in treatment period 1 then idrevloride in treatment period 2. The idrevloride dose was 85 μg and hypertonic saline was 4·2% NaCl. 3 mL of each study treatment was nebulised twice daily for 28 days in treatment periods 1 and 2; the two 28-day treatment periods were separated by a 28-day washout period. The primary endpoint was absolute change from baseline in ppFEV1 after 28 days. Safety assessments and reports of adverse events were made at clinic visits during each treatment period and by a follow-up telephone call 28 days after the last dose of study drug. Additionally, adverse events could be reported at a follow-up telephone call 3 days after the start of dosing and as they arose. Participants who received at least one dose of study drug were included in the safety analyses (safety set), and those who also had spirometry data were included in the efficacy analyses (full analysis set). The completed study is registered (EudraCT 2015-004917-26; ClinicalTrials.govNCT02871778).
Findings: Between Sep 14, 2016, and May 31, 2018, 216 patients were screened and 123 were randomly assigned to one of four crossover sequences. Across the two treatment periods, treatment with idrevloride in hypertonic saline was initiated in 80 patients and completed in 78 patients (all 78 had data available and were included in the analysis); hypertonic saline initiated in 81 patients and completed in 76 patients (75 had data available and were included in the analysis); idrevloride initiated in 37 patients and completed in 35 patients (34 had data available and were included in the analysis); and placebo initiated in 36 patients and completed in 34 patients (all 34 had data available and were included in the analysis). Greater absolute increases in ppFEV1 from baseline to 28 days of treatment were seen with idrevloride in hypertonic saline (least-squares mean absolute change from baseline 1·0 percentage points, 95% CI -0·4 to 2·4) than with hypertonic saline alone (least-squares mean absolute change from baseline of -0·5 percentage points, -2·0 to 0·9; difference 1·5 percentage points, 95% CI <0·1 to 3·0; p=0·044). There was no significant difference in ppFEV1 for the parallel comparison of idrevloride in hypertonic saline compared with placebo or the crossover comparison of idrevloride with placebo. Adverse events were similar across treatments (57 to 65% of patients). Cough occurred in a greater proportion of participants during treatments that contained idrevloride or hypertonic saline compared with placebo, and oropharyngeal pain occurred in a greater proportion of participants during idrevloride treatments than during treatment with hypertonic saline alone or placebo, whereas chest discomfort was more common during treatments that included hypertonic saline.
Interpretation: In this phase 2 crossover study, idrevloride in hypertonic saline was safe and associated with improved lung function over a 28-day period in people with primary ciliary dyskinesia compared with hypertonic saline alone. Larger, longer clinical studies are warranted to explore the potential benefits of idrevloride in combination with hypertonic saline in people with primary ciliary dyskinesia.
Funding: Parion Sciences, under agreement with Vertex Pharmaceuticals.
Copyright © 2024 Elsevier Ltd. All rights reserved.
Conflict of interest statement
Declaration of interests FCR has contracts or grants from the German Center for Lung Research, German Center for Infection Research, Innovative Medicines Initiative (European Union and European Federation of Pharmaceutical Industries and Associations) funded project “Inhaled antibiotics in bronchiectasis and cystic fibrosis” (including Alaxia, Basilea, Novartis, and Polyphor), Mukoviszidose Institute, Novartis, Insmed Germany, Grifols, Bayer, and InfectoPharm; consulting fees from Parion Sciences, Grifols, Zambon, Insmed, and Helmholtz-Zentrum für Infektionsforschung; payment or honoraria from I!DE Werbeagentur, Interkongress, AstraZeneca, Insmed, Grifols, and Universitätsklinikum Frankfurt am Main; payment for expert testimony from Social Court Cologne; support for meetings attended from German Kartagener Syndrome and Primary Ciliary Dyskinesia Patient Advisory Group, and Mukoviszidose; participated in an advisory board for Insmed, Grifols, and Shionogi; has leadership roles in the following organisations: European Reference Network-Lung Bronchiectasis Core Network, German Bronchiectasis Registry PROGNOSIS, Steering Committee of the European Bronchiectasis Registry EMBARC, Steering Committee of the European Non-Tuberculous Mycobacteria Registry EMBARC-NTM, Medical Advisory Board of the German Kartagener Syndrome and Primary Ciliary Dyskinesia Patient Advocacy Group, Respiratory Infections and Tuberculosis group of the German Respiratory Society (Deutsche Gesellschaft für Pneumologie), Cystic Fibrosis group of German Respiratory Society (Deutsche Gesellschaft für Pneumologie), German Center for Lung Research, Protocol Review Committee of the Primary Ciliary Dyskinesia - Clinical Trial Network, and Physician Association of the German Cystic Fibrosis Patient Advocacy Group; and has received fees for clinical trial participation from AstraZeneca, Boehringer Ingelheim, Celtaxsys, Corbus, Insmed, Novartis, Parion, University of Dundee, Vertex, and Zambon. AJS has received grants or contracts from The National Institutes of Health, The Office of Rare Disease Research, The National Center for Advancing Translational Sciences, The National Heart, Lung, and Blood Institute grant (U54HL096458), The Chest Foundation, and Fondation Pierre Lavoie; has received consulting fees from Parion Sciences; has received meeting support from The Chest Foundation; and participated on an advisory board for Parion Sciences, ReCode Therapeutics, and The Primary Ciliary Dyskinesia Foundation. KGN received grants or contracts from the Children's Lung Foundation; consulting fees from Boehringer Ingelheim, Parion Sciences, AstraZeneca, ReCode, and ETHRIS; participated on an advisory board for Boehringer Ingelheim, Parion Sciences, AstraZeneca, ReCode, and ETHRIS; received fees for clinical trial participation from Insmed, Vertex, and ALK-Abelló; and is a Director of the Primary Ciliary Dyskinesia - Clinical Trial Network. HM received honoraria for lectures from Vertex. MRL received consulting fees from Armata, 30T, Astra Zeneca, Parion, Insmed, Chiesi, Zambon, Electromed, Recode, AN2, Savara, and Boehringer Ingelheim; payment or honoraria for presentations from Insmed; and is the Infection group chair for the European Respiratory Society. MAZ received funding from Parion Sciences for the current work. KHD is an employee and owns stocks or stock options for Parion Sciences. MWL received funding from Parion Sciences for the current work; received grants or contracts from National Institutes of Health and Primary Ciliary Dyskinesia Foundation; support for attending meetings from American Thoracic Society; and is a member of the Primary Ciliary Dyskinesia Foundation Board. MRK owns stocks or stock options in Parion Sciences. TWF received grants or contracts from National Institutes of Health (AI146999, HL125241, and HL096458), Parion Sciences, and ReCode Therapeutics; consulting fees from Translate Bio and Arrowhead Pharmaceuticals; and participated in an advisory board for ReCode Therapeutics. All other authors declare no competing interests.
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