TY - JOUR
T1 - A Dyadic Growth Modeling Approach for Examining Associations between Weight Gain and Lung Function Decline
AU - Cornelius, Talea
AU - Schwartz, Joseph E.
AU - Balte, Pallavi
AU - Bhatt, Surya P.
AU - Cassano, Patricia A.
AU - Currow, David
AU - Jacobs, David R.
AU - Johnson, Miriam
AU - Kalhan, Ravi
AU - Kronmal, Richard
AU - Loehr, Laura
AU - O'Connor, George T.
AU - Smith, Benjamin
AU - White, Wendy B.
AU - Yende, Sachin
AU - Oelsner, Elizabeth C.
N1 - Publisher Copyright:
© 2020 The Author(s) 2020. Published by Oxford University Press on behalf of the Johns Hopkins Bloomberg School of Public Health. All rights reserved. For permissions, please e-mail: [email protected].
PY - 2020/10/1
Y1 - 2020/10/1
N2 - The relationship between body weight and lung function is complex. Using a dyadic multilevel linear modeling approach, treating body mass index (BMI; weight (kg)/height (m)2) and lung function as paired, within-person outcomes, we tested the hypothesis that persons with more rapid increase in BMI exhibit more rapid decline in lung function, as measured by forced expiratory volume in 1 second (FEV1), forced vital capacity (FVC), and their ratio (FEV1:FVC). Models included random intercepts and slopes and adjusted for sociodemographic and smoking-related factors. A sample of 9,115 adults with paired measurements of BMI and lung function taken at ≥3 visits were selected from a pooled set of 5 US population-based cohort studies (1983-2018; mean age at baseline = 46 years; median follow-up, 19 years). At age 46 years, average annual rates of change in BMI, FEV1, FVC, and FEV1:FVC ratio were 0.22 kg/m2/year,-25.50 mL/year,-21.99 mL/year, and-0.24%/year, respectively. Persons with steeper BMI increases had faster declines in FEV1 (r =-0.16) and FVC (r =-0.26) and slower declines in FEV1:FVC ratio (r = 0.11) (all P values < 0.0001). Results were similar in subgroup analyses. Residual correlations were negative (P < 0.0001), suggesting additional interdependence between BMI and lung function. Results show that greater rates of weight gain are associated with greater rates of lung function loss.
AB - The relationship between body weight and lung function is complex. Using a dyadic multilevel linear modeling approach, treating body mass index (BMI; weight (kg)/height (m)2) and lung function as paired, within-person outcomes, we tested the hypothesis that persons with more rapid increase in BMI exhibit more rapid decline in lung function, as measured by forced expiratory volume in 1 second (FEV1), forced vital capacity (FVC), and their ratio (FEV1:FVC). Models included random intercepts and slopes and adjusted for sociodemographic and smoking-related factors. A sample of 9,115 adults with paired measurements of BMI and lung function taken at ≥3 visits were selected from a pooled set of 5 US population-based cohort studies (1983-2018; mean age at baseline = 46 years; median follow-up, 19 years). At age 46 years, average annual rates of change in BMI, FEV1, FVC, and FEV1:FVC ratio were 0.22 kg/m2/year,-25.50 mL/year,-21.99 mL/year, and-0.24%/year, respectively. Persons with steeper BMI increases had faster declines in FEV1 (r =-0.16) and FVC (r =-0.26) and slower declines in FEV1:FVC ratio (r = 0.11) (all P values < 0.0001). Results were similar in subgroup analyses. Residual correlations were negative (P < 0.0001), suggesting additional interdependence between BMI and lung function. Results show that greater rates of weight gain are associated with greater rates of lung function loss.
KW - body mass index
KW - chronic obstructive lung disease
KW - cohort studies
KW - dyadic models
KW - longitudinal studies
KW - lung function
KW - obesity
KW - spirometry
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U2 - 10.1093/aje/kwaa059
DO - 10.1093/aje/kwaa059
M3 - Article
C2 - 32286615
AN - SCOPUS:85092679961
SN - 0002-9262
VL - 189
SP - 1173
EP - 1184
JO - American journal of epidemiology
JF - American journal of epidemiology
IS - 10
ER -