Natural variability of lung function in primary ciliary dyskinesia: longitudinal analysis from the PROVALF-PCD cohort
Natural variability of lung function in primary ciliary dyskinesia: longitudinal analysis from the PROVALF-PCD cohort
Background: the extent to which changes in lung function are due to natural variability in patients with primary ciliary dyskinesia (PCD) is unknown. We aimed to assess intra-individual variability in forced expiratory volume in 1 s (FEV1) derived from spirometry to define the extent to which the observed changes were due to test variability in clinically stable PCD patients.
Methods: PROVALF-PCD is a large international prospective cohort conducted in 2017–2019. We included patients ≥5 years who were clinically stable in ≥2 consecutive visits and provided spirometry-derived lung function measurements. To calculate the upper limit of normal (ULN), we fitted an unadjusted multilevel mixed effect model, and to determine the absolute change in FEV1 z-scores, we calculated the coefficient of repeatability (CR). We performed sensitivity analyses by stratifying relative change by age (adults versus children), number of measurements (≥4), and time between measurements (<4 months apart).
Results: we included 252 participants from 12 countries with confirmed or highly likely PCD. We included 1028 FEV1 measurements from patients in stable state. The ULN for relative change between two measurements of FEV1 was 25%. Test variability remained high in all sensitivity analyses. The CR was 1.88 FEV1 z-score.
Conclusions: changes in intra-individual FEV1 between visits greater than 25% in stable PCD patients lie beyond the expected test variability and therefore could be considered physiologically relevant. These findings inform the selection of endpoints for pulmonary intervention trials in PCD, as they suggest FEV1 is not a sensitive test for monitoring lung health in PCD.
Zhang, Kewei
7285abed-cd11-48bb-935b-51b7c36f9ff5
Kant, Avni
9e53c20c-8194-4ee5-bdc0-108c5768abc7
Boon, Mieke
90300ae9-6297-472d-a741-17dd2b6fa5da
Rubbo, Bruna
dc31cd48-3d84-41ab-a8b8-351c9914dca4
Lucas, Jane
5cb3546c-87b2-4e59-af48-402076e25313
Walker, Woolf
f4931133-20c5-4995-913c-383c7a373867
Harris, Amanda
df17c805-009b-4a54-9dff-e5042e9efa99
Pearse, Millie
9730e5c3-0382-4ed7-8eaa-6932ab09ec15
May 2025
Zhang, Kewei
7285abed-cd11-48bb-935b-51b7c36f9ff5
Kant, Avni
9e53c20c-8194-4ee5-bdc0-108c5768abc7
Boon, Mieke
90300ae9-6297-472d-a741-17dd2b6fa5da
Rubbo, Bruna
dc31cd48-3d84-41ab-a8b8-351c9914dca4
Lucas, Jane
5cb3546c-87b2-4e59-af48-402076e25313
Walker, Woolf
f4931133-20c5-4995-913c-383c7a373867
Harris, Amanda
df17c805-009b-4a54-9dff-e5042e9efa99
Pearse, Millie
9730e5c3-0382-4ed7-8eaa-6932ab09ec15
Zhang, Kewei, Kant, Avni and Boon, Mieke
,
et al.
(2025)
Natural variability of lung function in primary ciliary dyskinesia: longitudinal analysis from the PROVALF-PCD cohort.
ERJ Open Research, 11 (3), [01115-2024].
(doi:10.1183/23120541.01115-2024).
Abstract
Background: the extent to which changes in lung function are due to natural variability in patients with primary ciliary dyskinesia (PCD) is unknown. We aimed to assess intra-individual variability in forced expiratory volume in 1 s (FEV1) derived from spirometry to define the extent to which the observed changes were due to test variability in clinically stable PCD patients.
Methods: PROVALF-PCD is a large international prospective cohort conducted in 2017–2019. We included patients ≥5 years who were clinically stable in ≥2 consecutive visits and provided spirometry-derived lung function measurements. To calculate the upper limit of normal (ULN), we fitted an unadjusted multilevel mixed effect model, and to determine the absolute change in FEV1 z-scores, we calculated the coefficient of repeatability (CR). We performed sensitivity analyses by stratifying relative change by age (adults versus children), number of measurements (≥4), and time between measurements (<4 months apart).
Results: we included 252 participants from 12 countries with confirmed or highly likely PCD. We included 1028 FEV1 measurements from patients in stable state. The ULN for relative change between two measurements of FEV1 was 25%. Test variability remained high in all sensitivity analyses. The CR was 1.88 FEV1 z-score.
Conclusions: changes in intra-individual FEV1 between visits greater than 25% in stable PCD patients lie beyond the expected test variability and therefore could be considered physiologically relevant. These findings inform the selection of endpoints for pulmonary intervention trials in PCD, as they suggest FEV1 is not a sensitive test for monitoring lung health in PCD.
Text
ERJ Open Res-2025-Zhang-23120541.01115-2024
- Version of Record
More information
Accepted/In Press date: 10 December 2024
e-pub ahead of print date: 28 March 2025
Published date: May 2025
Identifiers
Local EPrints ID: 501936
URI: http://eprints.soton.ac.uk/id/eprint/501936
ISSN: 2312-0541
PURE UUID: d756119d-d4a1-4240-bb40-a1eeb75c5533
Catalogue record
Date deposited: 12 Jun 2025 16:44
Last modified: 04 Sep 2025 02:16
Export record
Altmetrics
Contributors
Author:
Kewei Zhang
Author:
Avni Kant
Author:
Mieke Boon
Author:
Woolf Walker
Author:
Amanda Harris
Author:
Millie Pearse
Corporate Author: et al.
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
