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Vol. 59. Issue 4.
Pages 366-372 (1 October 2003)
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Vol. 59. Issue 4.
Pages 366-372 (1 October 2003)
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Ventilación mecánica en el síndrome de dificultad respiratoria aguda/lesión pulmonar aguda
Mechanical ventilation in acute respiratory distress syndrome/acute lung injury
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J.A. Medina Villanueva*, S. Menéndez Cuervo, C. Rey Galán, J.A. Concha Torre
Unidad de Cuidados Intensivos Pediátricos. Hospital Central de Asturias. Oviedo. España
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El síndrome de dificultad respiratoria aguda (SDRA), descrito inicialmente por Ashbaugh en 1967, consiste en un cuadro agudo de insuficiencia respiratoria hipoxémica (PaO2/FiO2 ≤ 200) con presencia de infiltrados bilaterales en la placa simple de tórax relacionados con un edema pulmonar difuso no cardiogénico

Aunque la etiología del SDRA es múltiple y variada, una agresión (primariamente pulmonar o extrapulmonar) puede desencadenar una respuesta inflamatoria sistémica que perpetúe el daño pulmonar una vez erradicada la causa inicial que puso en marcha el cuadro

La mayoría de pacientes con SDRA requieren VM durante su evolución, constituyendo la ventilación convencional optimizada según los criterios de protección pulmonar el estándar de calidad actual. Otras estrategias de ventilación mecánica como la VAFO, basadas asimismo en los conceptos de reclutamiento alveolar y mantenimiento de un volumen pulmonar adecuado, pueden constituir alternativas útiles

En esta revisión se analiza asimismo el nivel de evidencia con el que actualmente se utilizan recursos terapéuticos como la ventilación en prono, la inhalación de óxido nítrico (NO) y prostaciclina, el empleo de surfactante exógeno y las técnicas de soporte vital extracorpóreo en el manejo de pacientes con SDRA

Palabras clave:
Síndrome de dificultad respiratoria aguda
Medicina basada en la evidencia
Ventilación mecánica
Ventilación de alta frecuencia
Niños

Acute respiratory distress syndrome (ARDS), which was first described by Ashbaugh in 1967, consists of acute hypoxemic respiratory failure (PaO2/FiO2 ≤ 200) associated with bilateral infiltrates on the chest radiograph caused by noncardiac diffuse pulmonary edema

Although ARDS is of multiple etiology, pulmonary or extrapulmonary injury can produce a systemic inflammatory response that perpetuates lung disturbances once the initial cause has been eliminated

Most patients with ARDS require mechanical ventilation. Currently, the gold standard is conventional ventilation optimized to protect against ventilator-associated lung injury. Other mechanical ventilation strategies such as high-frequency oscillatory ventilation, which is also based on alveolar recruitment and adequate lung volume, can be useful alternatives

In this review, the level of evidence for other therapies, such as prone positioning, nitric oxide and prostacyclin inhalation, exogenous surfactant, and extracorporeal vital support techniques are also analyzed

Key words:
Acute respiratory distress syndrome
Evidence-based medicine
Mechanical ventilation
High-frequency ventilation
Children
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Bibliografía
[1.]
D.G. Ashbaugh, D.B. Bigelow, T.L. Petty, B.E. Levine.
acute respiratory distress in adults.
Lancet, 2 (1967), pp. 319-323
[2.]
G.R. Bernard, A. Artigas, K.L. Brigham, J. Carlet, K. Falke, L. Hudson, et al.
The American-European Consensus Conference on ARDS. Definitions, mechanisms, relevant outcomes, and clinical trial coordination.
Am J Respir Crit Care Med, 149 (1994), pp. 818-824
[3.]
R. Kopp, R. Kuhlen, M. Max, R. Rossaint.
Evidence-based medicine in the therapy of the acute respiratory distress syndrome.
Intensive Care Med, 28 (2002), pp. 244-255
[4.]
A. Güther, D. Walmrath, F. Grimminger, W. Seeger.
Pathophysiology of acute lung injury.
Seminars in Respiratory and Critical Care Medicine, 22 (2001), pp. 247-258
[5.]
A.M. Fein, M.G. Calalang-Colucci.
acute lung injury and acute respiratory distress syndrome in sepsis and septic shock.
Crit Care Clin, 16 (2000), pp. 289-317
[6.]
Ventilation with lower tidal volumes as compared with traditional tidal volumes for acute lung injury and the acute respiratory distress syndrome.
The acute Respiratory Distress Syndrome Network.
N Engl J Med, 342 (2000), pp. 1301-1308
[7.]
K.G. Hickling, J. Walsh, S. Henderson, R. Jackson.
Low mortality rate in adult respiratory distress syndrome using low-volume, pressure-limited ventilation with permissive hypercapnia: A prospective study.
Crit Care Med, 22 (1994), pp. 1568-1578
[8.]
M.B. Amato, C.S. Barbas, D.M. Medeiros, R.B. Magaldi, G.P. Schettino, G. Lorenzi-Filho, et al.
Effect of a protective-ventilation strategy on mortality in the acute respiratory distress syndrome.
N Engl J Med, 338 (1998), pp. 347-354
[9.]
L. Brochard, F. Roudot-Thoraval, E. Roupie, C. Delclaux, J. Chastre, E. Fernández-Mondéjar, et al.
Tidal volume reduction for prevention of ventilator-induced lung injury in acute respiratory distress syndrome. The Multicenter Trail Group on Tidal Volume reduction in ARDS.
Am J Respir Crit Care Med, 158 (1998), pp. 1831-1838
[10.]
R.G. Brower, C.B. Shanholtz, H.E. Fessler, D.M. Shade, P. Jr. White, C.M. Wiener, et al.
Prospective, randomized, controlled clinical trial comparing traditional versus reduced tidal volume ventilation in acute respiratory distress syndrome patients.
Crit Care Med, 27 (1999), pp. 1492-1498
[11.]
T.E. Stewart, M.O. Meade, D.J. Cook, J.T. Granton, R.V. Hodder, S.E. Lapinsky, et al.
Evaluation of a ventilation strategy to prevent barotrauma in patients at high risk for acute respiratory distress syndrome. Pressure- and volume-limited ventilation strategy group.
N Engl J Med, 338 (1998), pp. 355-361
[12.]
M.J. Tobin.
Advances in mechanical ventilation.
N Engl J Med, 344 (2001), pp. 1986-1996
[13.]
M.B. Amato, C.S. Barbas, D.M. Medeiros, G.P. Schettino, F.G. Lorenzi, R.A. Kairalla, et al.
Beneficial effects of the "open lung approach" with low distending pressures in acute respiratory distress syndrome. A prospective randomized study on mechanical ventilation.
Am J Respir Crit Care Med, 152 (1995), pp. 1835-1846
[14.]
S.H. Wang, T.S. Wei.
The outcome of early pressure-controlled inverse ratio ventilation on patients with severe acute respiratory distress syndrome in surgical intensive care unit.
Am J Surg, 183 (2002), pp. 151-155
[15.]
M. Tripathi, R.K. Pandey, S. Dwivedi.
Pressure controlled inverse ratio ventilation in acute respiratory distress syndrome patients.
J Postgrad Med, 48 (2002), pp. 34-36
[16.]
C.L. Holmes, K.R. Walley.
Cardiovascular management of ARDS.
Seminars in Respiratory and Critical Care Medicine, 22 (2001), pp. 307-315
[17.]
J.M. Parish, D.R. Gracey, P.A. Southorn, P.A. Pairolero, J.T. Wheeler.
Differential mechanical ventilation in respiratory failure due to severe unilateral lung disease.
Mayo Clin Proc, 59 (1984), pp. 822-828
[18.]
M.A. Curley, J.E. Thompson, J.H. Arnold.
The effects of early and repeated prone positioning in pediatric patients with acute lung injury.
Chest, 118 (2000), pp. 156-163
[19.]
L. Gattinoni, G. Tognoni, A. Pesenti, P. Taccone, D. Mascheroni, V. Labarta, et al.
Effect of prone positioning on the survival of patients with acute respiratory failure.
N Engl J Med, 345 (2001), pp. 568-573
[20.]
S. Mehta, S.E. Lapinsky, D.C. Hallett, D. Merker, R.J. Groll, A.B. Cooper, et al.
Prospective trial of high-frequency oscillation in adults with acute respiratory distress syndrome.
Crit Care Med, 29 (2001), pp. 1360-1369
[21.]
J.A. Claridge, R.G. hostetter, S.M. Lowson, J.S. Young.
High-frequency oscillatory ventilation can be effective as rescue therapy for refractory acute lung dysfunction.
Am Surg, 65 (1999), pp. 1092-1096
[22.]
F. Martinón Torres, A. Rodríguez Núñez, D.G. Jaimovich, J.M. Martinón Sánchez.
Ventilación de alta frecuencia oscilatoria en pacientes pediátricos. Protocolo de aplicación y resultados preliminares.
An Esp Pediatr, 53 (2000), pp. 305-313
[23.]
N.D. Ferguson, T.E. Stewart.
New therapies for adults with acute lung injury. High-frequency oscillatory ventilation.
Crit Care Clin, 18 (2002), pp. 91-106
[24.]
R.P. Dellinger, J.L. Zimmerman, R.W. Taylor, R.C. Straube, D.L. Hauser, G.J. Criner, et al.
Effects of inhaled nitric oxide in patients with acute respiratory distress syndrome: Results of a randomi- zed phase II trial. Inhaled Nitric Oxide in ARDS Study Group.
Crit Care Med, 26 (1998), pp. 15-23
[25.]
J. Sokol, S.E. Jacobs, D. Bohn.
Inhaled nitric oxide for acute hypoxemic respiratory failure in children and adults.
Cochrane Database Syst Rev, 4 (2000), pp. CD002787
[26.]
A.J. Michaels, R.J. Schriener, S. Kolla, S.S. Awad, P.B. Rich, C. Reickert, et al.
Extracorporeal life support in pulmonary failure after trauma.
J Trauma, 46 (1999), pp. 638-645
[27.]
K. Lewandowski, R. Rossaint, D. Pappert, H. Gerlach, K.J. Slama, H. Weidemann, et al.
High survival rate in 122 ARDS patients managed according to a clinical algorithm including extracorporeal membrane oxygenation.
Intensive Care Med, 23 (1997), pp. 819-835
[28.]
A. Anzueto, R.P. Baughman, K.K. Guntupalli, J.G. Weg, H.P. Wiedemann, A.A. Raventós, et al.
Aerosolized surfactant in adults with sepsis-induced acute respiratory distress syndrome. Exosurf acute Respiratory Distress Syndrome Sepsis Study Group.
N Engl J Med, 334 (1996), pp. 1417-1421
[29.]
R.C. Bone, C. Jr. Fisher, T.P. Clemmer, G.J. Slotman, C.A. Metz.
Early methylprednisolone treatment for septic syndrome and the adult respiratory distress syndrome.
Chest, 92 (1987), pp. 1032-1036
[30.]
G.U. Meduri, A.S. Headley, E. Golden, S.J. Carson, R.A. Umberger, T. Kelso, et al.
Effect of prolonged methylprednisolone therapy in unresolving acute respiratory distress syndrome: A randomized controlled trial.
Jama, 280 (1998), pp. 159-165
[31.]
G.R. Bernard, A.P. Wheeler, J.A. Russell, R. Schein, W.R. Summer, K.P. Steinberg, et al.
The effects of ibuprofen on the physiology and survival of patients with sepsis. The Ibuprofen in Sepsis Study Group.
N Engl J Med, 336 (1997), pp. 912-918
[32.]
R. Ullrich, C. Lorber, G. Roder, G. Urak, B. Faryniak, R.N. Sladen, et al.
Controlled airway pressure therapy, nitric oxide inhalation, prone position, and extracorporeal membrane oxygenation (ECMO) as components of an integrated approach to ARDS.
Anesthesiology, 91 (1999), pp. 1577-1586
Copyright © 2003. Asociación Española de Pediatría
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