Objective and methods: As the result of vigorous bubbling, infants receiving continuous positive airway pressure (CPAP) by an underwater seal (bubble CPAP) were observed to have vibrations of their chests at frequencies similar to high-frequency ventilation (HFV). We performed a randomized crossover study in 10 premature infants ready for extubation to test whether bubble CPAP contributes to gas exchange compared to conventional ventilator-derived CPAP. Measurements of tidal volume and minute volume were made using the Bear Cub neonatal volume monitor, and gas exchange was measured using an oxygen saturation monitor and a transcutaneous carbon dioxide (tcpCO2) monitor. Results: There was a 39% reduction in minute volume (p < 0.001) and a 7% reduction in respiratory rate (p = 0.004) with no change in tcpCO2 or O2 saturation for infants supported with bubble versus ventilator-derived CPAP. Conclusions: The lack of difference in blood gas parameters associated with a decrease in the infant’s minute volume and respiratory rate with bubble CPAP compared with ventilator-derived CPAP suggests that the chest vibrations produced with bubble CPAP may have contributed to gas exchange. Bubble CPAP may offer an effective and inexpensive option for providing respiratory support to premature infants.
The follow-up records of 605 infants with birth weights of less than 1,500 g, with data available for 2 years after birth, were examined for evidence of abnormal pulmonary signs or symptoms. A total of 119 infants were identified and the neonatal oxygen requirements of these infants were compared with those of 486 infants who had normal pulmonary function. A requirement for oxygen at 28 days of life had a positive predictive value for abnormal pulmonary findings at the time of follow-up of only 38%, whereas 31% of those with normal pulmonary findings at the time of follow-up were still receiving oxygen at this age. The need for oxygen at 28 days was a good predictor of abnormal findings in infants of ≥3O weeks' gestational age at birth but became increasingly less useful as gestational age decreased It was found that, irrespective of gestational age at birth, the ment for additional oxygen at 36 weeks' corrected postnatal gestational age was a better predictor of abnormal outcome, increasing the positive predictive value to 63%. The prediction of a normal outcome remained 90% for infants not receiving oxygen at this corrected gestational age.
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