WungJT, DriscollJMJr, EpsteinRA, HymanAI. A new device for CPAP by nasal route. Crit Care Med, 1975; 3(2):76-78.
2.
KoyamaiboleL, KadoJ, QovuJD, ColquhounS, DukeT. An evaluation of bubble-CPAP in a neonatal unit in a developing country: effective respiratory support that can be applied by nurses. J Trop Pediatr, 2006; 52(4):249-253.
3.
PillowJJ, HillmanN, MossTJ, PolglaseG, BoldG, BeaumontC, et al. Bubble continuous positive airway pressure enhances lung volume and gas exchange in preterm lambs. Am J Respir Crit Care Med, 2007; 176(1):63-69.
4.
NarendranV, DonovanEF, HoathSB, AkinbiHT, SteichenJJ, JobeAH. Early bubble CPAP and outcomes in ELBW preterm infants. J Perinatol, 2003; 23(3):195-199.
5.
NowadzkyT, PantojaA, BrittonJR. Bubble continuous positive airway pressure, a potentially better practice, reduces the use of mechanical ventilation among very low birth weight infants with respiratory distress syndrome. Pediatrics, 2009; 123(6):1534-1540.
6.
GuptaS, SinhaSK, TinW, DonnSM. A randomized controlled trial of post-extubation bubble continuous positive airway pressure versus Infant Flow Driver continuous positive airway pressure in preterm infants with respiratory distress syndrome. J Pediatr, 2009; 154(5):645-650.
7.
YoungquistTM, RichardsonCP, DiBlasiRM. Effects of condensate in the exhalation limb of neonatal circuits on airway pressure during bubble CPAP. Respir Care, 2013; 58(11):1840-1846.
8.
SassoonCSH. Triggering of the ventilator in patient-ventilator interactions. Respir Care, 2011; 56(1):39-48; discussion: 48-51.
