CFTR Genotype and Maximal Exercise Capacity in Cystic Fibrosis: A Cross-sectional Study.

Radtke, Thomas; Hebestreit, Helge; Gallati, Sabina; Schneiderman, Jane E; Braun, Julia; Stevens, Daniel; Hulzebos, Erik Hj; Takken, Tim; Boas, Steven R; Urquhart, Don S; Lands, Larry C; Tejero, Sergio; Sovtic, Aleksandar; Dwyer, Tiffany; Petrovic, Milos; Harris, Ryan A; Karila, Chantal; Savi, Daniela; Usemann, Jakob; Mei-Zahav, Meir; Hatziagorou, Elpis; Ratjen, Felix; Kriemler, Susi; CFTR-Exercise study group

Publication:
CFTR Genotype and Maximal Exercise Capacity in Cystic Fibrosis: A Cross-sectional Study.

dc.contributor.author	Radtke, Thomas
dc.contributor.author	Hebestreit, Helge
dc.contributor.author	Gallati, Sabina
dc.contributor.author	Schneiderman, Jane E
dc.contributor.author	Braun, Julia
dc.contributor.author	Stevens, Daniel
dc.contributor.author	Hulzebos, Erik Hj
dc.contributor.author	Takken, Tim
dc.contributor.author	Boas, Steven R
dc.contributor.author	Urquhart, Don S
dc.contributor.author	Lands, Larry C
dc.contributor.author	Tejero, Sergio
dc.contributor.author	Sovtic, Aleksandar
dc.contributor.author	Dwyer, Tiffany
dc.contributor.author	Petrovic, Milos
dc.contributor.author	Harris, Ryan A
dc.contributor.author	Karila, Chantal
dc.contributor.author	Savi, Daniela
dc.contributor.author	Usemann, Jakob
dc.contributor.author	Mei-Zahav, Meir
dc.contributor.author	Hatziagorou, Elpis
dc.contributor.author	Ratjen, Felix
dc.contributor.author	Kriemler, Susi
dc.contributor.author	CFTR-Exercise study group
dc.date.accessioned	2023-01-25T10:01:25Z
dc.date.available	2023-01-25T10:01:25Z
dc.date.issued	2017-11-15
dc.description.abstract	Cystic fibrosis transmembrane conductance regulator (CFTR) is expressed in human skeletal muscle cells. Variations of CFTR dysfunction among patients with cystic fibrosis may be an important determinant of maximal exercise capacity in cystic fibrosis. Previous studies on the relationship between CFTR genotype and maximal exercise capacity are scarce and contradictory. This study was designed to explore factors influencing maximal exercise capacity, expressed as peak oxygen uptake (V.O2peak), with a specific focus on CFTR genotype in children and adults with cystic fibrosis. In an international, multicenter, cross-sectional study, we collected data on CFTR genotype and cardiopulmonary exercise tests in patients with cystic fibrosis who were ages 8 years and older. CFTR mutations were classified into functional classes I–V. The final analysis included 726 patients (45% females; age range, 8–61 yr; forced expiratory volume in 1 s, 16 to 123% predicted) from 17 cystic fibrosis centers in North America, Europe, Australia, and Asia, all of whom had both valid maximal cardiopulmonary exercise tests and complete CFTR genotype data. Overall, patients exhibited exercise intolerance (V.O2peak, 77.3 ± 19.1% predicted), but values were comparable among different CFTR classes. We did not detect an association between CFTR genotype functional classes I–III and either V.O2peak (percent predicted) (adjusted β = −0.95; 95% CI, −4.18 to 2.29; P = 0.57) or maximum work rate (Wattmax) (adjusted β = −1.38; 95% CI, −5.04 to 2.27; P = 0.46) compared with classes IV–V. Those with at least one copy of a F508del-CFTR mutation and one copy of a class V mutation had a significantly lower V.O2peak (β = −8.24%; 95% CI, −14.53 to −2.99; P = 0.003) and lower Wattmax (adjusted β = −7.59%; 95% CI, −14.21 to −0.95; P = 0.025) than those with two copies of a class II mutation. On the basis of linear regression analysis adjusted for relevant confounders, lung function and body mass index were associated with V.O2peak. CFTR functional genotype class was not associated with maximal exercise capacity in patients with cystic fibrosis overall, but those with at least one copy of a F508del-CFTR mutation and a single class V mutation had lower maximal exercise capacity.
dc.identifier.doi	10.1513/AnnalsATS.201707-570OC
dc.identifier.essn	2325-6621
dc.identifier.pmid	29140739
dc.identifier.unpaywallURL	https://www.zora.uzh.ch/id/eprint/144105/1/144105.pdf
dc.identifier.uri	http://hdl.handle.net/10668/11802
dc.issue.number	2
dc.journal.title	Annals of the American Thoracic Society
dc.journal.titleabbreviation	Ann Am Thorac Soc
dc.language.iso	en
dc.organization	Hospital Universitario Virgen del Rocío
dc.page.number	209-216
dc.pubmedtype	Journal Article
dc.pubmedtype	Multicenter Study
dc.rights.accessRights	open access
dc.subject	cystic fibrosis transmembrane conductance regulator
dc.subject	peak oxygen uptake
dc.subject	lung disease
dc.subject	cardiorespiratory fitness
dc.subject.mesh	Adolescent
dc.subject.mesh	Adult
dc.subject.mesh	Child
dc.subject.mesh	Correlation of Data
dc.subject.mesh	Cross-Sectional Studies
dc.subject.mesh	Cystic Fibrosis
dc.subject.mesh	Cystic Fibrosis Transmembrane Conductance Regulator
dc.subject.mesh	Exercise Test
dc.subject.mesh	Exercise Tolerance
dc.subject.mesh	Female
dc.subject.mesh	Forced Expiratory Volume
dc.subject.mesh	Humans
dc.subject.mesh	International Cooperation
dc.subject.mesh	Male
dc.subject.mesh	Middle Aged
dc.subject.mesh	Mutation
dc.subject.mesh	Oxygen Consumption
dc.title	CFTR Genotype and Maximal Exercise Capacity in Cystic Fibrosis: A Cross-sectional Study.
dc.type	research article
dc.type.hasVersion	VoR
dc.volume.number	15
dspace.entity.type	Publication

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Publication:
CFTR Genotype and Maximal Exercise Capacity in Cystic Fibrosis: A Cross-sectional Study.