Servicio Andaluz de Salud (SAS)
95. Dimitriou G, Greenough A, Giffin FJ, Chan V. Synchronous intermittent mandatory ventilation modes versus patient triggered ventilation during weaning. Archives of Disease in Childhood 1995; 72: F188–190. 96. Donn SM, Nicks JJ, Becker MA. Flow–synchronized ventilation of preterm infants with respiratory distress syndrome. Journal of Perinatology 1994; 14: 90–94. 97. Heicher DA, Kasting DS, Harrod JR. Prospective clinical comparison of two methods for mechanical ventilation of neonates: rapid rate and short inspiratory time versus slow rate and long inspiratory time. Journal of Pediatrics 1981; 98: 957–961. 98. Oxford Region Controlled Trial of Artificial Ventilation (OCTAVE) Study Group. Multicentre randomised controlled trial of high against low frequency positive pressure ventilation. Archives of Disease in Childhood 1991; 66: 770–775. 99. Pohlandt F, Saule H, Schrîder H, et al. Decreased incidence of extra–alveolar air leakage or death prior to air leakage in high versus low rate positive pressure ventilation: results of a randomised seven–centre trial in preterm infants. European Journal of Pediatrics 1992; 151: 904–909. 100. Greenough A, Milner AD, Dimitriou G. Synchronized mechanical ventilation for respiratory support in newborn infants. Cochrane Database of Systematic Reviews 2004; (3): CD000456. 101. Davis PG, Henderson–Smart DJ. Nasal continuous positive airways pressure immediately after extubation for preventing morbidity in preterm infants. Cochrane Database of Systematic Reviews 2007; (4): CD000143. 102. Annibale D, Hulsey T, Engstrom P, Wallin L, Ohning B. Randomised, controlled trial of nasopharyngeal continuous positive airways pressure in the extubation of very low birthweight infants. J Pediatr 1994; 124: 455–460. 103. Chan V, Greenough A. Randomised trial of methods of extubation in acute and chronic respiratory distress. Arch Dis Child 1993; 68: 570–572. 104. Davis P, Jankov R, Doyle L, Henschke P. Randomised, controlled trial of nasal continuous positive airway pressure in the extubation of infants weighing 600 to 1250g. Arch Dis Child Fetal Neonatal Ed 1998; 79: F54–F57. 105. Dimitriou G, Greenough A, Kavvadia V, Laubscher, Alexiou C, Pavlou V, Mantagos S. Elective use of nasal continuous positive airways pressure following extubation of preterm infants. Eur J Pediatr 2000; 159: 434–439. 106. Engelke SC, Roloff DW, Kuhns LR. Postextubation nasal continuous positive airway pressure. Am J Dis Child 1982; 136: 359–361. 107. Higgins RD, Richter SE, Davis JM. Nasal continuous positive pressure facilitates extubation of very low birthweight neonates. Pediatrics 1991; 88: 999–1003. 108. So B–H, Tamura M, Mishina J, Watanabe T, Kamoshita S. Application of nasal continuous positive airway pressure to early extubation in very low birthweight infants. Arch Dis Child 1995; 72: F191–193. 109. Tapia J, Bancalari A, Gonzalez A, Mercado M. Does continuous positive airways pressure (CPAP) during weaning from intermittent mandatory ventilation in very low birthweight infants have risks or benefits? A controlled trial. Ped Pulmonol 1995; 19: 269–279.
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G u í a p a r a l a Ve n t i l a c i ó n M e c á n i c a d e l R e c i é n N a c i d o