Hany Aly1, An Massaro, Ceyda Acun, Maide Ozen. 1. Department of Neonatology, The George Washington University and the Children's National Medical Center , Washington, DC , USA.
Abstract
OBJECTIVE: We aimed to compare clinical presentation and risk factors associated with the development of pneumothorax among newborns of different birth weight (BW) categories. METHODS: We collected clinical and respiratory data on all newborns diagnosed with pneumothorax over a 10-year period. Infants were classified into two groups with BW ≥ 2500 g and <2500 g. RESULTS: From 13,811 infants, we identified 77 with pneumothorax (BW ≥ 2500 g in 33 and BW <2500 g in 44 infants). The prevalence of pneumothorax in the two BW categories was 0.27% and 2.5%, respectively. Infants with BW ≥ 2500 g were diagnosed with neumothorax at a median age of 5.5 h, and mostly (70%) did not require intubation. Infants with BW <2500 g were diagnosed with pneumothorax at a median age of 34 h, presenting with hypercarbia and increased requirement for supplemental oxygen. The majority of these infants (89%) received mechanical ventilation after pneumothorax. When compared to matched controls, there was a lower proportion of African-American infants in the pneumothorax group (48% versus 73%, p = 0.029) and a higher rate of bronchopulmonary dysplasia (30% versus 7%, p = 0.004). CONCLUSIONS: Onset, presentation and management of pneumothorax varied according to BW. Preterm infants with pneumothorax are at increased risk for developing bronchopulmonary dysplasia.
OBJECTIVE: We aimed to compare clinical presentation and risk factors associated with the development of pneumothorax among newborns of different birth weight (BW) categories. METHODS: We collected clinical and respiratory data on all newborns diagnosed with pneumothorax over a 10-year period. Infants were classified into two groups with BW ≥ 2500 g and <2500 g. RESULTS: From 13,811 infants, we identified 77 with pneumothorax (BW ≥ 2500 g in 33 and BW <2500 g in 44 infants). The prevalence of pneumothorax in the two BW categories was 0.27% and 2.5%, respectively. Infants with BW ≥ 2500 g were diagnosed with neumothorax at a median age of 5.5 h, and mostly (70%) did not require intubation. Infants with BW <2500 g were diagnosed with pneumothorax at a median age of 34 h, presenting with hypercarbia and increased requirement for supplemental oxygen. The majority of these infants (89%) received mechanical ventilation after pneumothorax. When compared to matched controls, there was a lower proportion of African-American infants in the pneumothorax group (48% versus 73%, p = 0.029) and a higher rate of bronchopulmonary dysplasia (30% versus 7%, p = 0.004). CONCLUSIONS: Onset, presentation and management of pneumothorax varied according to BW. Preterm infants with pneumothorax are at increased risk for developing bronchopulmonary dysplasia.