New Generation Neonatal High Frequency Ventilators: Effect of Oscillatory Frequency and Working Principles on Performance | Respiratory Care

References

1.↵
1. Cools F,
2. Henderson-Smart DJ,
3. Offringa M,
4. Askie LM
. Elective high frequency oscillatory ventilation versus conventional ventilation for acute pulmonary dysfunction in preterm infants. Cochrane Database Syst Rev 2009;(3):CD000104.
2.↵
1. Cools F,
2. Askie LM,
3. Offringa M,
4. Asselin JM,
5. Calvert SA,
6. Courtney SE,
7. et al
. Elective high-frequency oscillatory versus conventional ventilation in preterm infants: a systematic review and meta-analysis of individual patients' data. Lancet 2010;375(9731):2082–2091.
OpenUrl CrossRef PubMed Web of Science
3.↵
1. Courtney SE,
2. Durand DJ,
3. Asselin JM,
4. Hudak ML,
5. Aschner JL,
6. Shoemaker CT
. High-frequency oscillatory ventilation versus conventional mechanical ventilation for very-low-birth-weight infants. N Engl J Med 2002;347(9):643–652.
OpenUrl CrossRef PubMed Web of Science
4.↵
1. Salvo V,
2. Zimmermann LJ,
3. Gavilanes AW,
4. Barberi I,
5. Ricotti A,
6. Abella R,
7. et al
. First intention high-frequency oscillatory and conventional mechanical ventilation in premature infants without antenatal glucocorticoid prophylaxis. Pediatr Crit Care Med 2012;13(1):72–79.
OpenUrl CrossRef PubMed
5.↵
1. Sanchez Luna M,
2. Santos Gonzalez M,
3. Tendillo Cortijo F
. High-frequency oscillatory ventilation combined with volume guarantee in a neonatal animal model of respiratory distress syndrome. Crit Care Res Pract 2013;593915, 2013.
6.↵
1. Jouvet P,
2. Hubert P,
3. Isabey D,
4. Pinquier D,
5. Dahan E,
6. Cloup M,
7. Harf A
. Assessment of high-frequency neonatal ventilator performances. Intensive Care Med 1997;23(2):208–213.
OpenUrl CrossRef PubMed Web of Science
7.↵
1. Hatcher D,
2. Watanabe H,
3. Ashbury T,
4. Vincent S,
5. Fisher J,
6. Froese A
. Mechanical performance of clinically available, neonatal, high-frequency, oscillatory-type ventilators. Crit Care Med 1998;26(6):1081–1088.
OpenUrl CrossRef PubMed Web of Science
8.↵
1. Pillow JJ,
2. Wilkinson MH,
3. Neil HL,
4. Ramsden CA
. In vitro performance characteristics of high-frequency oscillatory ventilators. Am J Respir Crit Care Med 2001;164(6):1019–1024.
OpenUrl PubMed Web of Science
9.↵
1. John J,
2. Harcourt ER,
3. Davis PG,
4. Tingay DG
. Drager VN500's oscillatory performance has a frequency-dependent threshold. J Paediatr Child Health 2014;50(1):27–31.
OpenUrl PubMed
10.↵
1. Abubakar KM,
2. Keszler M
. Patient-ventilator interactions in new modes of patient-triggered ventilation. Pediatr Pulmonol 2001;32(1):71–75.
OpenUrl CrossRef PubMed Web of Science
11.↵
1. Lista G,
2. Colnaghi M,
3. Castoldi F,
4. Condo V,
5. Reali R,
6. Compagnoni G,
7. Mosca F
. Impact of targeted-volume ventilation on lung inflammatory response in preterm infants with respiratory distress syndrome (RDS). Pediatr Pulmonol 2004;37(6):510–514.
OpenUrl CrossRef PubMed Web of Science
12.↵
1. Jaecklin T,
2. Morel DR,
3. Rimensberger PC
. Volume-targeted modes of modern neonatal ventilators: how stable is the delivered tidal volume? Intensive Care Med 2007;33(2):326–335.
OpenUrl CrossRef PubMed Web of Science
13.↵
1. Scalfaro P,
2. Pillow JJ,
3. Sly PD,
4. Cotting J
. Reliable tidal volume estimates at the airway opening with an infant monitor during high-frequency oscillatory ventilation. Crit Care Med 2001;29(10):1925–1930.
OpenUrl CrossRef PubMed Web of Science
14.↵
1. Iguchi N,
2. Hirao O,
3. Uchiyama A,
4. Mashimo T,
5. Nishimura M,
6. Fujino Y
. Evaluation of performance of two high-frequency oscillatory ventilators using a model lung with a position sensor. J Anesth 2010;24(6):888–892.
OpenUrl PubMed
15.↵
1. Rossing TH,
2. Slutsky AS,
3. Lehr JL,
4. Drinker PA,
5. Kamm R,
6. Drazen JM
. Tidal volume and frequency dependence of carbon dioxide elimination by high-frequency ventilation. N Engl J Med 1981;305(23):1375–1379.
OpenUrl CrossRef PubMed Web of Science
16.↵
1. Slutsky AS,
2. Kamm RD,
3. Rossing TH,
4. Loring SH,
5. Lehr J,
6. Shapiro AH,
7. et al
. Effects of frequency, tidal volume, and lung volume on CO2 elimination in dogs by high frequency (2-30 Hz), low tidal volume ventilation. J Clin Invest 1981;68(6):1475–1484.
OpenUrl CrossRef PubMed Web of Science
17.↵
1. Harf A,
2. Bertrand C,
3. Chang HK
. Ventilation by high-frequency oscillation of thorax or at trachea in rats. J Appl Physiol 1984;56(1):155–160.
OpenUrl Abstract/FREE Full Text
18.↵
1. Kamitsuka MD,
2. Boynton BR,
3. Villanueva D,
4. Vreeland PN,
5. Frantz ID 3rd.
. Frequency, tidal volume, and mean airway pressure combinations that provide adequate gas exchange and low alveolar pressure during high frequency oscillatory ventilation in rabbits. Pediatr Res 1990;27(1):64–69.
OpenUrl PubMed Web of Science
19.↵
1. Dimitriou G,
2. Greenough A,
3. Kavvadia V,
4. Laubscher B,
5. Milner AD
. Volume delivery during high frequency oscillation. Arch Dis Child Fetal Neonatal Ed 1998;78(2):F148–150.
OpenUrl Abstract/FREE Full Text
20.↵
1. Morley CJ
. Volume-limited and volume-targeted ventilation. Clin Perinatol 2012;39(3):513–523.
OpenUrl CrossRef PubMed
21.↵
1. Zimova-Herknerova M,
2. Plavka R
. Expired tidal volumes measured by hot-wire anemometer during high-frequency oscillation in preterm infants. Pediatr Pulmonol 2006;41(5):428–433.
OpenUrl PubMed
22.↵
1. Abbasi S,
2. Sivieri E,
3. Roberts R,
4. Kirpalani H
. Accuracy of tidal volume, compliance, and resistance measurements on neonatal ventilator displays: an in vitro assessment. Pediatr Crit Care Med 2012;13(4):e262–268.
OpenUrl PubMed
23.↵
1. Fredberg JJ,
2. Glass GM,
3. Boynton BR,
4. Frantz ID 3rd.
. Factors influencing mechanical performance of neonatal high-frequency ventilators. J Appl Physiol 1987;62(6):2485–2490.
OpenUrl Abstract/FREE Full Text

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