Trajectories of airflow limitation from childhood to early adulthood: an analysis of six population-based birth cohorts

IF 15.5 1区医学 Q1 PEDIATRICS Lancet Child & Adolescent Health Pub Date : 2025-03-01 Epub Date: 2025-02-18 DOI:10.1016/S2352-4642(25)00001-X

Anhar Ullah MSc , Raquel Granell PhD , Lesley Lowe PhD , Sara Fontanella PhD , Prof Hasan Arshad DM , Clare S Murray MD , Prof Steve Turner MD , Prof John W Holloway PhD , Prof Angela Simpson PhD , Prof Graham Roberts DM , Gang Wang MD , Prof Jadwiga A Wedzicha MD , Prof Rosa Faner PhD , Hans Jacob L Koefoed MD , Judith M Vonk PhD , Prof Alvar Agusti PhD , Prof Gerard H Koppelman PhD , Prof Erik Melén MD , Prof Adnan Custovic PhD , CADSET Clinical Research Collaboration of the European Respiratory Society

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Understanding patterns of lung function and development of airflow limitation through childhood is necessary to inform lung function trajectories in relation to health and chronic airway disease. We aimed to derive trajectories of airflow limitation from childhood (age 5–8 years) into early adulthood (age 20–26 years) using repeated spirometry data from birth cohorts.</div></div><div><h3>Methods</h3><div>In this study, we drew forced expiratory volume in 1 s (FEV<sub>1</sub>) and forced vital capacity (FVC) data from six population-based birth cohorts: the UK-based Avon Longitudinal Study of Parents and Children (ALSPAC), Isle of Wight cohort (IOW), Manchester Asthma and Allergy Study (MAAS), and Aberdeen Study of Eczema and Asthma (SEATON) as well as the Swedish Child (<em>Barn</em>), Allergy, Milieu, Stockholm, Epidemiological survey (BAMSE) and the Dutch Prevention and Incidence of Asthma and Mite Allergy (PIAMA) cohort. For the discovery analysis, we pooled data from ALSPAC, IOW, MAAS, and BAMSE with spirometry data recorded at middle childhood (age 8–10 years), adolescence (age 15–18 years), and early adulthood (age 20–26 years). For the replication analysis, we pooled middle childhood and adolescence spirometry data from PIAMA and SEATON. We used latent class trajectory modelling to derive trajectory classes based on joint modelling of FEV<sub>1</sub> and FEV<sub>1</sub>/FVC ratio regression residuals ascertained from all age groups. The final model was selected using the lowest Bayesian information criterion. Participants were assigned to the trajectory with the highest posterior probability. Weighted random-effect multinomial logistic regression models were used to investigate factors associated with joining each trajectory, the results of which are reported as relative risk ratios (RRRs) with 95% CIs.</div></div><div><h3>Findings</h3><div>The discovery population included 8114 participants: 4710 from ALSPAC, 808 from IOW, 586 from MAAS, and 2010 from BAMSE and was modelled into one of four lung function trajectories that showed normal airflow (6555 [80·8%] of 8114 people), persistent airflow obstruction (1280 [15·8%]), worsening airflow obstruction (161 [2·0%]), and improved airflow obstruction (118 [1·5%]). Both improvement in and worsening airflow obstruction by early adulthood were seen from all initial severity levels. Whereas improvement in airflow obstruction was more prominent between middle childhood and adolescence (57·8%) than between adolescence and early adulthood (13·4%), worsening airflow obstruction was more prominent between adolescence and early adulthood (61·5%) than between middle childhood and adolescence (32·6%). Among current wheezers, higher BMI was associated with a lower relative risk of joining the trajectory with improvement in airflow obstruction (RRR 0·69 [95% CI 0·49–0·95]), whereas among non-wheezers, higher BMI increased the relative risk of being in the improved airflow obstruction trajectory (1·38 [1·04–1·85]). A higher BMI at first lung function assessment was associated with a higher relative risk of joining the trajectory for improvement in airflow obstruction trajectory in participants with low birthweight and no current asthma diagnosis (RRR 2·44 [1·17–5·12]); by contrast, higher BMI is associated with a lower relative risk of joining the trajectory with improvement in airflow obstruction among those with low birthweight and current asthma diagnosis (0·37 [0·18–0·76]). Results in replication cohorts (n=1337) were consistent with those in the discovery cohort.</div></div><div><h3>Interpretation</h3><div>Worsening and improvement in airflow limitation from school age to adulthood might occur at all ages and all airflow obstruction severity levels. 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Abstract

Background

Lung function during childhood is an important predictor of subsequent health and disease. Understanding patterns of lung function and development of airflow limitation through childhood is necessary to inform lung function trajectories in relation to health and chronic airway disease. We aimed to derive trajectories of airflow limitation from childhood (age 5–8 years) into early adulthood (age 20–26 years) using repeated spirometry data from birth cohorts.

Methods

In this study, we drew forced expiratory volume in 1 s (FEV₁) and forced vital capacity (FVC) data from six population-based birth cohorts: the UK-based Avon Longitudinal Study of Parents and Children (ALSPAC), Isle of Wight cohort (IOW), Manchester Asthma and Allergy Study (MAAS), and Aberdeen Study of Eczema and Asthma (SEATON) as well as the Swedish Child (Barn), Allergy, Milieu, Stockholm, Epidemiological survey (BAMSE) and the Dutch Prevention and Incidence of Asthma and Mite Allergy (PIAMA) cohort. For the discovery analysis, we pooled data from ALSPAC, IOW, MAAS, and BAMSE with spirometry data recorded at middle childhood (age 8–10 years), adolescence (age 15–18 years), and early adulthood (age 20–26 years). For the replication analysis, we pooled middle childhood and adolescence spirometry data from PIAMA and SEATON. We used latent class trajectory modelling to derive trajectory classes based on joint modelling of FEV₁ and FEV₁/FVC ratio regression residuals ascertained from all age groups. The final model was selected using the lowest Bayesian information criterion. Participants were assigned to the trajectory with the highest posterior probability. Weighted random-effect multinomial logistic regression models were used to investigate factors associated with joining each trajectory, the results of which are reported as relative risk ratios (RRRs) with 95% CIs.

Findings

The discovery population included 8114 participants: 4710 from ALSPAC, 808 from IOW, 586 from MAAS, and 2010 from BAMSE and was modelled into one of four lung function trajectories that showed normal airflow (6555 [80·8%] of 8114 people), persistent airflow obstruction (1280 [15·8%]), worsening airflow obstruction (161 [2·0%]), and improved airflow obstruction (118 [1·5%]). Both improvement in and worsening airflow obstruction by early adulthood were seen from all initial severity levels. Whereas improvement in airflow obstruction was more prominent between middle childhood and adolescence (57·8%) than between adolescence and early adulthood (13·4%), worsening airflow obstruction was more prominent between adolescence and early adulthood (61·5%) than between middle childhood and adolescence (32·6%). Among current wheezers, higher BMI was associated with a lower relative risk of joining the trajectory with improvement in airflow obstruction (RRR 0·69 [95% CI 0·49–0·95]), whereas among non-wheezers, higher BMI increased the relative risk of being in the improved airflow obstruction trajectory (1·38 [1·04–1·85]). A higher BMI at first lung function assessment was associated with a higher relative risk of joining the trajectory for improvement in airflow obstruction trajectory in participants with low birthweight and no current asthma diagnosis (RRR 2·44 [1·17–5·12]); by contrast, higher BMI is associated with a lower relative risk of joining the trajectory with improvement in airflow obstruction among those with low birthweight and current asthma diagnosis (0·37 [0·18–0·76]). Results in replication cohorts (n=1337) were consistent with those in the discovery cohort.

Interpretation

Worsening and improvement in airflow limitation from school age to adulthood might occur at all ages and all airflow obstruction severity levels. Interventions to optimise healthy weight, including tackling overweight and obesity (particularly among children with wheezing) as well as treating underweight among non-wheezers, could help to improve lung health across the lifespan.

Funding

UK Medical Research Council and CADSET European Respiratory Society Clinical Research Collaboration.

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从童年到成年早期气流限制的轨迹：对六个基于人口的出生队列的分析

儿童时期的肺功能是预测随后健康和疾病的重要指标。了解儿童时期肺功能和气流限制的发展模式对于了解与健康和慢性气道疾病相关的肺功能轨迹是必要的。我们的目的是利用出生队列的重复肺活量测定数据，得出从童年（5-8岁）到成年早期（20-26岁）的气流限制轨迹。方法在本研究中，我们从6个以人口为基础的出生队列中提取1秒用力呼气量（FEV1）和用力肺活量（FVC）数据。英国的雅芳父母和儿童纵向研究（ALSPAC）、怀特岛队列（IOW）、曼彻斯特哮喘和过敏研究（MAAS）、阿伯丁湿疹和哮喘研究（SEATON）以及瑞典儿童（Barn）、过敏、环境、斯德哥尔摩、流行病学调查（BAMSE）和荷兰哮喘和螨虫过敏预防和发生率（PIAMA）队列。为了进行发现分析，我们将ALSPAC、IOW、MAAS和BAMSE的数据与儿童中期（8-10岁）、青春期（15-18岁）和成年早期（20-26岁）的肺活量测定数据进行了汇总。为了进行重复性分析，我们汇集了PIAMA和SEATON的儿童中期和青少年肺活量测定数据。我们使用潜在类别轨迹建模，基于从所有年龄组确定的FEV1和FEV1/FVC比率回归残差的联合建模来导出轨迹类别。使用最低贝叶斯信息准则选择最终模型。参与者被分配到具有最高后验概率的轨迹。采用加权随机效应多项逻辑回归模型来研究与加入每个轨迹相关的因素，结果报告为95% ci的相对风险比（RRRs）。发现人群包括8114名参与者：4710名来自ALSPAC， 808名来自IOW， 586名来自MAAS， 2010名来自BAMSE，并被建模为四种肺功能轨迹之一，显示正常气流（8114人中有6555人[80.8%]），持续气流阻塞（1280人[15.8%]），气流阻塞恶化（161人[2.0%]），气流阻塞改善（118人[1.5%]）。从所有初始严重程度来看，成年早期气流阻塞的改善和恶化。而气流阻塞的改善在儿童期中期和青春期（57.8%）比青春期和成年早期（13.4%）更为显著，而气流阻塞恶化在青春期和成年早期（61.5%）比儿童期中期和青春期（32.6%）更为显著。在目前的喘息者中，较高的BMI与加入气流阻塞改善轨迹的相对风险较低相关（RRR为0.69 [95% CI为0.49 - 0.95]），而在非喘息者中，较高的BMI增加了进入气流阻塞改善轨迹的相对风险（1.38[1.04 - 1.85]）。在低出生体重且目前没有哮喘诊断的参与者中，首次肺功能评估时较高的BMI与加入改善气流阻塞轨迹的相对风险较高相关（RRR为2.44 [1.17 - 5.12]）；相比之下，在低出生体重和当前哮喘诊断的患者中，高BMI与加入气流阻塞改善轨迹的相对风险较低相关（0.37[0.18 - 0.76]）。重复队列（n=1337）的结果与发现队列的结果一致。从学龄到成年气流限制的恶化和改善可能发生在所有年龄和所有气流阻塞严重程度。优化健康体重的干预措施，包括解决超重和肥胖（特别是患有喘息的儿童）以及治疗非喘息者的体重不足，可以帮助改善整个生命周期的肺部健康。资助英国医学研究委员会和CADSET欧洲呼吸学会临床研究合作。

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来源期刊

Lancet Child & Adolescent Health Psychology-Developmental and Educational Psychology

CiteScore

40.90

自引率

0.80%

发文量

381

期刊介绍： The Lancet Child & Adolescent Health, an independent journal with a global perspective and strong clinical focus, presents influential original research, authoritative reviews, and insightful opinion pieces to promote the health of children from fetal development through young adulthood. This journal invite submissions that will directly impact clinical practice or child health across the disciplines of general paediatrics, adolescent medicine, or child development, and across all paediatric subspecialties including (but not limited to) allergy and immunology, cardiology, critical care, endocrinology, fetal and neonatal medicine, gastroenterology, haematology, hepatology and nutrition, infectious diseases, neurology, oncology, psychiatry, respiratory medicine, and surgery. Content includes articles, reviews, viewpoints, clinical pictures, comments, and correspondence, along with series and commissions aimed at driving positive change in clinical practice and health policy in child and adolescent health.