Burns
Volume 24, Issue 1 , Pages 34-38 , February 1998

The usefulness of combined high-frequency percussive ventilation during acute respiratory failure after smoke inhalation

,Accepted 14 February 1997.

References 

  1. Cioffi W, Graves T, McManus W, Pruitt B. High frequency percussive ventilation in patients with inhalation injury. Journal of Trauma. 1989;29(3):350–354
  2. Haponik E, Munster A, et al. In: 2nd edn. Respiratory Injury: Smoke Inhalation and Burns. New York: McGraw-Hill; 1990;
  3. Cioffi W, Rue L, Graves T, Mc Manus W, Mason A, Pruitt B. Prophylactic use of high frequency percussive ventilation in patients with inhalation injury. Annals of Surgery. June 1991;575–580
  4. Gallagher J, Boyse P, Davidson D, et al. High frequency percussive ventilation compared with conventional mechanical ventilation. Critical Care Medicine. 1989;174:364–366
  5. Graves T, Cioffi W, Mc Manus W, et al. Fluid ressuscitation of infants and children with massive thermal injury. Journal of Trauma. 1988;28(12):656
  6. Haponik E, Summer W, et al. Respiratory complications in burned patients: pathogenesis and spectrum of inhalation injury. Journal of Critical Care. 1987;2:49
  7. Shirani KZ, Pruitt BA, Mason AD. The influence of inhalation injury and pneumonia on burn mortality. Annals of Surgery. 1985;205:82–87
  8. Shumazi T, Yukioka T, Hubbard G, et al. Frequency of VA/Q rates following smoke inhalation. USAISR Annual research Progress Report. 1988;
  9. Hurst JM, Branson RD, DeHaven CB. The role of high frequency ventilation in post-traumatic respiratory insufficiency. Journal of Trauma. 1987;27:236–242
  10. Hurst JM, DeHaven CB. Adult respiratory distress syndrome: Improved oxygenation during high frequency jet ventilation/continous positive and expiratory pressure. Critical Care Medicine. 1984;96:764–769
  11. Zawacki B, Azen S, et al. Multifactorial probit analysis of mortality in burned people. Annals of Surgery. 1979;189:1
  12. Coalson JJ, King RJ, Winter VT, et al. O2 — and pneumonia induced lung injury I. Pathological and morphometric studies. Journal of Applied Physiology. 1989;67(1):346–356
  13. Tsuno K, Prato P, Kolobow T. Acute lung injury from mechanical ventilation at moderately high airway pressures. Journal of Applied Physiology. 1990;693:956–961
  14. Yyler DC. Positive end-expiratory pressure: A review. Critical Care Medicine. 1983;11:300
  15. Jibelian G, Lachmann B. Gas exchange during conventional en high frequency pulse ventillation in the surfactant deficient lung: Influence of positive and expiratory pressure. Critical Care Medicine. 1984;12:769–773
  16. Kaiser KG, Davies NJ, Rodriguez R, et al. Efficacy of high frequency ventilation in presence of extensive ventilation perfusion mismatch. Journal of Applied Physiology. 1985;58:996–1004
  17. Kolton MK, Cattran CB, Kent G, et al. Oxygenation during high frequency ventilation compared with conventional mechanical ventilation in two models of lung injury. Anesthesia and Analgesia. 1982;61:323–332
  18. Carlton GC, Howland WS, Ray C, et al. High frequency jet ventilation: A prospective randomized evaluation. Chest. 1983;84:551–559

PII: S0305-4179(97)00037-5

doi: 10.1016/S0305-4179(97)00037-5

Burns
Volume 24, Issue 1 , Pages 34-38 , February 1998

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