Rationale: Animal models suggest pre-eclampsia (Pre-E) affects alveolar development, but data from humans are lacking. Objective: Assess the impact of Pre-E on airway function, diffusion capacity, and respiratory morbidity in preterm and term infants born from mothers with Pre-E. Methods: Infants born from mothers with and without Pre-E were recruited for this study; term and preterm infants were included in both cohorts. Respiratory morbidity in the first 12 months of life was assessed through monthly phone surveys. Raised volume rapid thoracoabdominal compression and measurement of diffusion capacity of the lung to carbon monoxide (DLCO)) were performed at 6 months corrected age. Results: There were 146 infants in the Pre-E cohort and 143 in the control cohort. The Pre-E cohort was further divided into non-severe (N=41) and severe (N=105) groups. There was no significant difference in DCLO and DLCO/aveolar volume amongst the three groups. Forced vital capacity was similar amongst the three groups, but the non-severe Pre-E group had significantly higher forced expiratory flows that the other two. After adjusting for multiple covariates including prematurity, the severe Pre-E group had a lower risk for wheezing in the first year of life compared to the other two. Conclusions: Pre-E is not associated with reduced DLCO, lower forced expiratory flows, or increased wheezing in the first year of life. These results differ from animal models and highlight the the complex relationships between Pre-E and lung function and respiratory morbidity in human infants.