Cid-JuárezS, Thirión-RomeroI, Torre-BouscouletL, Gochicoa-RangelL, Martínez-BriseñoD, Hernández-PaniaguaIY, et al. Inspiratory capacity and vital capacity of healthy subjects 9-81 years of age at moderate-high altitude. Respir Care, 2019; 64(2):153–160.
2.
DonaldsonGC, SeemungalT, JeffriesDJ, WedzichaJA. Effect of temperature on lung function and symptoms in chronic obstructive pulmonary disease. Eur Respir J, 1999; 13(4):844–849.
3.
LiS, BakerPJ, JalaludinBB, MarksGB, DenisonLS, WilliamsGM. Ambient temperature and lung function in children with asthma in Australia. Eur Respir J, 2014; 43(4):1059–1066.
4.
MourtzoukouEG, FalagasME. Exposure to cold and respiratory tract infections. Int J Tuberc Lung Dis, 2007; 11(9):938–943.
5.
CarderM, McNameeR, BeverlandI, EltonR, CohenGR, BoydJ, et al. The lagged effect of cold temperature and wind chill on cardiorespiratory mortality in Scotland. Occup Environ Med, 2005; 62(10):702–710.
6.
MannM, PatelK, ReardonJZ, GoldsteinM, GodarTJ, ZuWallackRL. The influence of spring and summer New England meteorologic conditions on the respiratory status of patients with chronic lung disease. Chest, 1993; 103(5):1369–1374.
7.
CollacoJM, McGreadyJ, GreenDM, NaughtonKM, WatsonCP, ShieldsT, et al. Effect of temperature on cystic fibrosis lung disease and infections: a replicated cohort study. PLoS One, 2011; 6(11):e27784.
8.
HalesS, LewisS, SlaterT, CraneJ, PearceN. Prevalence of adult asthma symptoms in relation to climate in New Zealand. Environ Health Perspect, 1998; 106(9):607–610.
9.
RiceMB, LiW, WilkerEH, GoldDR, SchwartzJ, ZanobettiA, et al. Association of outdoor temperature with lung function in a temperate climate. Eur Respir J, 2019; 53(1):1800612.
