Modelling wheezing spells identifies phenotypes with different outcomes and genetic associates
Modelling wheezing spells identifies phenotypes with different outcomes and genetic associates
Rationale: Longitudinal modeling of current wheezing identified similar phenotypes, but their characteristics often differ between studies.
Objectives: We propose that a more comprehensive description of wheeze may better describe trajectories than binary information on the presence/absence of wheezing.
Methods: We derived six multidimensional variables of wheezing spells from birth to adolescence (including duration, temporal sequencing, and the extent of persistence/recurrence). We applied partition-around-medoids clustering on these variables to derive phenotypes in five birth cohorts. We investigated within- and between-phenotype differences compared with binary latent class analysis models and ascertained associations of these phenotypes with asthma and lung function and with polymorphisms in asthma loci 17q12-21 and
CDHR3 (cadherin-related family member 3).
Measurements and Main Results: Analysis among 7,719 participants with complete data identified five spell-based wheeze phenotypes with a high degree of certainty: never (54.1%), early-transient (ETW) (23.7%), late-onset (LOW) (6.9%), persistent (PEW) (8.3%), and a novel phenotype, intermittent wheeze (INT) (6.9%). FEV
1/FVC was lower in PEW and INT compared with ETW and LOW and declined from age 8 years to adulthood in INT. 17q12-21 and
CDHR3 polymorphisms were associated with higher odds of PEW and INT, but not ETW or LOW. Latent class analysis- and spell-based phenotypes appeared similar, but within-phenotype individual trajectories and phenotype allocation differed substantially. The spell-based approach was much more robust in dealing with missing data, and the derived clusters were more stable and internally homogeneous.
Conclusions: Modeling of spell variables identified a novel intermittent wheeze phenotype associated with lung function decline to early adulthood. Using multidimensional spell variables may better capture wheeze development and provide a more robust input for phenotype derivation.
17q12-21, Wheezing phenotypes, asthma, genetics, latent class
883-893
Haider, Sadia
ed3296e0-288d-49b1-befb-fe4545a7278e
Granell, Raquel
06e9e006-3754-4cc9-b3fc-42024bd05123
Curtin, John
b1f4f316-b8a3-438f-aeab-4c411ab41da2
Fontanella, Sara
6c29b69f-edd6-4414-a8fd-c47241976aa5
Cucco, Alex
31cc7a9c-9751-4603-9b20-6b860fabc09f
Turner, Stephen
a51d875a-66bb-4a18-b5b0-18ce3dc7d15c
Simpson, Angela
5591f945-0ead-46a3-a866-b7bea84a2a83
Roberts, Graham
ea00db4e-84e7-4b39-8273-9b71dbd7e2f3
Murray, Clare S
aca69df6-149c-401c-842f-5b2d8042edf1
Holloway, John W
4bbd77e6-c095-445d-a36b-a50a72f6fe1a
Devereux, Graham
c3123d52-d2fc-4147-938d-e9cf4ca9f821
Cullinan, Paul
b5b2eb0a-9fb9-4d4b-af18-5109de92d742
Arshad, Syed Hasan
917e246d-2e60-472f-8d30-94b01ef28958
Custovic, Adnan
17d8d092-73b8-44fb-bf48-5cea7b29e3fc
15 April 2022
Haider, Sadia
ed3296e0-288d-49b1-befb-fe4545a7278e
Granell, Raquel
06e9e006-3754-4cc9-b3fc-42024bd05123
Curtin, John
b1f4f316-b8a3-438f-aeab-4c411ab41da2
Fontanella, Sara
6c29b69f-edd6-4414-a8fd-c47241976aa5
Cucco, Alex
31cc7a9c-9751-4603-9b20-6b860fabc09f
Turner, Stephen
a51d875a-66bb-4a18-b5b0-18ce3dc7d15c
Simpson, Angela
5591f945-0ead-46a3-a866-b7bea84a2a83
Roberts, Graham
ea00db4e-84e7-4b39-8273-9b71dbd7e2f3
Murray, Clare S
aca69df6-149c-401c-842f-5b2d8042edf1
Holloway, John W
4bbd77e6-c095-445d-a36b-a50a72f6fe1a
Devereux, Graham
c3123d52-d2fc-4147-938d-e9cf4ca9f821
Cullinan, Paul
b5b2eb0a-9fb9-4d4b-af18-5109de92d742
Arshad, Syed Hasan
917e246d-2e60-472f-8d30-94b01ef28958
Custovic, Adnan
17d8d092-73b8-44fb-bf48-5cea7b29e3fc
Haider, Sadia, Granell, Raquel, Curtin, John, Fontanella, Sara, Cucco, Alex, Turner, Stephen, Simpson, Angela, Roberts, Graham, Murray, Clare S, Holloway, John W, Devereux, Graham, Cullinan, Paul, Arshad, Syed Hasan and Custovic, Adnan
(2022)
Modelling wheezing spells identifies phenotypes with different outcomes and genetic associates.
American Journal of Respiratory and Critical Care Medicine, 205 (8), .
(doi:10.1164/rccm.202108-1821OC).
Abstract
Rationale: Longitudinal modeling of current wheezing identified similar phenotypes, but their characteristics often differ between studies.
Objectives: We propose that a more comprehensive description of wheeze may better describe trajectories than binary information on the presence/absence of wheezing.
Methods: We derived six multidimensional variables of wheezing spells from birth to adolescence (including duration, temporal sequencing, and the extent of persistence/recurrence). We applied partition-around-medoids clustering on these variables to derive phenotypes in five birth cohorts. We investigated within- and between-phenotype differences compared with binary latent class analysis models and ascertained associations of these phenotypes with asthma and lung function and with polymorphisms in asthma loci 17q12-21 and
CDHR3 (cadherin-related family member 3).
Measurements and Main Results: Analysis among 7,719 participants with complete data identified five spell-based wheeze phenotypes with a high degree of certainty: never (54.1%), early-transient (ETW) (23.7%), late-onset (LOW) (6.9%), persistent (PEW) (8.3%), and a novel phenotype, intermittent wheeze (INT) (6.9%). FEV
1/FVC was lower in PEW and INT compared with ETW and LOW and declined from age 8 years to adulthood in INT. 17q12-21 and
CDHR3 polymorphisms were associated with higher odds of PEW and INT, but not ETW or LOW. Latent class analysis- and spell-based phenotypes appeared similar, but within-phenotype individual trajectories and phenotype allocation differed substantially. The spell-based approach was much more robust in dealing with missing data, and the derived clusters were more stable and internally homogeneous.
Conclusions: Modeling of spell variables identified a novel intermittent wheeze phenotype associated with lung function decline to early adulthood. Using multidimensional spell variables may better capture wheeze development and provide a more robust input for phenotype derivation.
Text
rccm.202108-1821oc
- Accepted Manuscript
More information
Accepted/In Press date: 19 January 2022
e-pub ahead of print date: 20 January 2022
Published date: 15 April 2022
Additional Information:
Funding Information:
Supported by the UK Medical Research Council (UK MRC) Programme grant MR/S025340/1 and grants G0601361 and MR/K002449/1. R.G. is in part funded through Wellcome Trust Strategic Award 108818/15/Z. The UK MRC and Wellcome (grant ref: 217065/Z/19/Z) and the University of Bristol provide core support for ALSPAC (Avon Longitudinal Study of Parents and Children). MAAS (Manchester Asthma and Allergy Study) was supported by the Asthma UK Grants No 301 (1995–1998), No 362 (1998–2001), No 01/012 (2001–2004), No 04/014 (2004–2007), British Medical Association James Trust (2005), and the JP Moulton Charitable Foundation (2004–2016), the North West Lung Centre Charity (1997–current), and the UK MRC grant MR/L012693/1 (2014–2018).
Publisher Copyright:
Copyright © 2022 by the American Thoracic Society.
Copyright:
Copyright 2022 Elsevier B.V., All rights reserved.
Keywords:
17q12-21, Wheezing phenotypes, asthma, genetics, latent class
Identifiers
Local EPrints ID: 454439
URI: http://eprints.soton.ac.uk/id/eprint/454439
ISSN: 1073-449X
PURE UUID: 9f0b6c37-83ce-4577-a02c-08940c7a2d8e
Catalogue record
Date deposited: 09 Feb 2022 17:40
Last modified: 17 Mar 2024 07:05
Export record
Altmetrics
Contributors
Author:
Sadia Haider
Author:
Raquel Granell
Author:
John Curtin
Author:
Sara Fontanella
Author:
Alex Cucco
Author:
Stephen Turner
Author:
Angela Simpson
Author:
Clare S Murray
Author:
Graham Devereux
Author:
Paul Cullinan
Author:
Adnan Custovic
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
