SunH, ChengR, KangW, XiongH, ZhouC, ZhangY, et al. High-frequency oscillatory ventilation versus synchronized intermittent mandatory ventilation plus pressure support in preterm infants with severe respiratory distress syndrome. Respir Care, 2014; 59(2):159–169.
2.
CoolsF, OffringaM, AskieLM. Elective high frequency oscillatory ventilation versus conventional ventilation for acute pulmonary dysfunction in preterm infants. Cochrane Database Syst Rev, 2015(3):CD000104.
3.
ArnoldJH, HansonJH, Toro-FigueroLO, GutiérrezJ, BerensRJ, AnglinDL. Prospective, randomized comparison of high-frequency oscillatory ventilation and conventional mechanical ventilation in pediatric respiratory failure. Crit Care Med, 1994; 22(10):1530–1539.
4.
YoungD, LambSE, ShahS, MacKenzieI, TunnicliffeW, LallR, et al. OSCAR Study Group. High-frequency oscillation for acute respiratory distress syndrome. N Engl J Med, 2013; 368(9):806–813.
5.
FergusonND, CookDJ, GuyattGH, MehtaS, HandL, AustinP, et al. OSCILLATE Trial Investigators; Canadian Critical Care trials Group. High-frequency oscillation in early acute respiratory distress syndrome. N Engl J Med, 2013; 368(9):795–805.
6.
Pediatric Acute Lung Injury Consensus Conference Group. Pediatric acute respiratory distress syndrome: consensus recommendations from the Pediatric Acute Lung Injury Consensus Conference. Pediatr Crit Care Med, 2015; 16(5):428–439.
7.
GoligherEC, DresM, FanE, RubenfeldGD, ScalesDC, HerridgeMS, et al. Mechanical Ventilation-induced Diaphragm Atrophy Strongly Impacts Clinical Outcomes. Am J Respir Crit Care Med, 2018; 197(2):204–213.
BordessouleA, PiquilloudL, LyazidiA, MoreiraA, RimensbergerPC. Imposed work of breathing during high-frequency oscillatory ventilation in spontaneously breathing neonatal and pediatric models. Respir Care, 2018; 63(9):1085–1093.
10.
BannerMJ, JaegerMJ, KirbyRR. Components of the work of breathing and implications for monitoring ventilator-dependent patients. Crit Care Med, 1994; 22(3):515–523.
11.
BannerMJ, KirbyRR, BlanchPB. Differentiating total work of breathing into its component parts. Essential for appropriate interpretation. Chest, 1996; 109(5):1141–1143.
12.
BlanchPB, BannerMJ. A new respiratory monitor that enables accurate measurement of work of breathing: a validation study. Respir Care, 1994; 39(9):897–905.
13.
van HeerdeM, van GenderingenHR, LeenhovenT, RoubikK, PlötzFB, MarkhorstDG. Imposed work of breathing during high-frequency oscillatory ventilation: a bench study. Crit Care, 2006; 10(1):R23.
14.
LiptsenE, AghaiZH, PyonKH, SaslowJG, NakhlaT, LongJ, et al. Work of breathing during nasal continuous positive airway pressure in preterm infants: a comparison of bubble vs variable-flow devices. J Perinatol, 2005; 25(7):453–458.
15.
BannerMJ, KirbyRR, BlanchPB, LayonAJ. Decreasing imposed work of the breathing apparatus to zero using pressure-support ventilation. Crit Care Med, 1993; 21(9):1333–1338.
