囊性纤维化中 CFTR 基因型与最大运动能力:一项横断面研究。
CFTR Genotype and Maximal Exercise Capacity in Cystic Fibrosis: A Cross-sectional Study.
机构信息
University of Zurich, Epidemiology, Biostatistics and Prevention Institute , Hirschengraben84 , Zurich, Zurich, Switzerland ;
University Hospitals Würzburg, Würzburg, Germany ;
出版信息
Ann Am Thorac Soc. 2018 Feb;15(2):209-216. doi: 10.1513/AnnalsATS.201707-570OC. Epub 2017 Nov 15.
RATIONALE
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.
OBJECTIVES
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.
METHODS
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.
RESULTS
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.
CONCLUSIONS
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.
背景
囊性纤维化跨膜电导调节因子(CFTR)在人体骨骼肌细胞中表达。囊性纤维化患者 CFTR 功能的变化可能是囊性纤维化患者最大运动能力的重要决定因素。先前关于 CFTR 基因型与最大运动能力关系的研究很少且存在矛盾。
目的
本研究旨在探讨影响最大运动能力(以峰值摄氧量[V.O2peak]表示)的因素,特别关注囊性纤维化患者的 CFTR 基因型。
方法
在一项国际、多中心、横断面研究中,我们收集了年龄在 8 岁及以上的囊性纤维化患者的 CFTR 基因型和心肺运动测试数据。CFTR 突变被分为功能分类 I-V 类。
结果
最终分析纳入了来自北美、欧洲、澳大利亚和亚洲 17 个囊性纤维化中心的 726 名患者(女性占 45%;年龄 8-61 岁;用力呼气量 1 秒,预测值的 16%-123%),所有患者均有有效、最大的心肺运动测试和完整的 CFTR 基因型数据。总体而言,患者表现出运动不耐受(V.O2peak,预测值的 77.3%±19.1%),但不同 CFTR 类别的值相当。我们没有发现 CFTR 基因型功能分类 I-III 与 V.O2peak(%预测值)(调整后的β=-0.95;95%CI,-4.18 至 2.29;P=0.57)或最大工作率(Wattmax)(调整后的β=-1.38;95%CI,-5.04 至 2.27;P=0.46)之间存在关联,与 IV-V 类相比。那些至少有一个 F508del-CFTR 突变和一个 V 类突变的 CFTR 拷贝的患者,其 V.O2peak 明显较低(β=-8.24%;95%CI,-14.53 至-2.99;P=0.003),Wattmax 也较低(调整后的β=-7.59%;95%CI,-14.21 至-0.95;P=0.025),而那些有两个 II 类突变的患者则没有。基于调整了相关混杂因素的线性回归分析,肺功能和体重指数与 V.O2peak 相关。
结论
总体而言,CFTR 功能基因型与囊性纤维化患者的最大运动能力无关,但至少有一个 F508del-CFTR 突变和一个单独的 V 类突变的患者的最大运动能力较低。
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