RATIONALE: Limited information is available about the long-term outcome of lung function and exercise capacity in young adults born prematurely. OBJECTIVE: To determine long-term effects of prematurity on lung function (volumes, diffusing capacity) and exercise capacity in ex-preterms compared with healthy peers. METHODS: In a prospective cohort study, children born with a gestational age of less than 32 wk and/or a birth weight under 1,500 g were followed up for 19 yr. Participants (n=42; mean gestational age, 30 wk, and mean birth weight, 1,246 g) and healthy term control subjects (n=48) were recruited for lung function and exercise tests. MEASUREMENTS: Spirometry, bodybox (TLC(box)), diffusing capacity (Dl(CO)), bicycle ergometer test. MAIN RESULTS: Preterm birth was associated with lower FEV(1) (preterms, 95% predicted, vs. controls, 110% predicted; p<0.001), DL(CO)sb (88% predicted vs. 96% predicted, p=0.003), and exercise capacity (load, 185 vs. 216 W; p<0.001; anaerobic threshold: mean, 1,546 vs. 1,839 ml/min; p<0.001) compared with control subjects at follow-up. No differences between the groups were found in TLC(box), peak oxygen consumption (Vo(2)), and breathing reserve. No significant differences in lung function and exercise parameters were found between preterms with and without bronchopulmonary dysplasia. CONCLUSIONS: Long-term effects of prematurity were airway obstruction and a lower CO diffusing capacity compared with control subjects, although mean lung function parameters were within the normal range. Ex-preterms had a lower exercise level, which could not be explained by impaired lung function or smoking habits, but might be due to impaired physical fitness.
RATIONALE: Limited information is available about the long-term outcome of lung function and exercise capacity in young adults born prematurely. OBJECTIVE: To determine long-term effects of prematurity on lung function (volumes, diffusing capacity) and exercise capacity in ex-preterms compared with healthy peers. METHODS: In a prospective cohort study, children born with a gestational age of less than 32 wk and/or a birth weight under 1,500 g were followed up for 19 yr. Participants (n=42; mean gestational age, 30 wk, and mean birth weight, 1,246 g) and healthy term control subjects (n=48) were recruited for lung function and exercise tests. MEASUREMENTS: Spirometry, bodybox (TLC(box)), diffusing capacity (Dl(CO)), bicycle ergometer test. MAIN RESULTS: Preterm birth was associated with lower FEV(1) (preterms, 95% predicted, vs. controls, 110% predicted; p<0.001), DL(CO)sb (88% predicted vs. 96% predicted, p=0.003), and exercise capacity (load, 185 vs. 216 W; p<0.001; anaerobic threshold: mean, 1,546 vs. 1,839 ml/min; p<0.001) compared with control subjects at follow-up. No differences between the groups were found in TLC(box), peak oxygen consumption (Vo(2)), and breathing reserve. No significant differences in lung function and exercise parameters were found between preterms with and without bronchopulmonary dysplasia. CONCLUSIONS: Long-term effects of prematurity were airway obstruction and a lower CO diffusing capacity compared with control subjects, although mean lung function parameters were within the normal range. Ex-preterms had a lower exercise level, which could not be explained by impaired lung function or smoking habits, but might be due to impaired physical fitness.
Authors: Jessica Y Islam; Roberta L Keller; Judy L Aschner; Tina V Hartert; Paul E Moore Journal: Am J Respir Crit Care Med Date: 2015-07-15 Impact factor: 21.405
Authors: Manjith Narayanan; Caroline S Beardsmore; John Owers-Bradley; Cristian M Dogaru; Marius Mada; Iain Ball; Ruslan R Garipov; Claudia E Kuehni; Ben D Spycher; Michael Silverman Journal: Am J Respir Crit Care Med Date: 2013-05-15 Impact factor: 21.405
Authors: Bente J Vederhus; Trond Markestad; Geir E Eide; Marit Graue; Thomas Halvorsen Journal: Health Qual Life Outcomes Date: 2010-05-23 Impact factor: 3.186
Authors: Nicole Deptula; Emily Royse; Matthew W Kemp; Yuichiro Miura; Suhas G Kallapur; Alan H Jobe; Noah H Hillman Journal: Am J Physiol Lung Cell Mol Physiol Date: 2016-06-24 Impact factor: 5.464