Effects of positive end-expiratory pressure on anesthesia-induced atelectasis and gas exchange in anesthetized and mechanically ventilated sheep

Francesco Staffieri Dipartimento delle Emergenze e dei Trapianti d'Organo, Sezione di Chirurgia Veterinaria, Università degli Studi di Bari, 70010 Valenzano, Bari, Italy; and Department of Clinical Studies, New Bolton Center, School of Veterinary Medicine, University of Pennsylvania, Kennett Square, PA 19348.

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Bernd Driessen Department of Anesthesiology, David Geffen School of Medicine, University of California-Los Angeles, Los Angeles, CA 90095; and Department of Clinical Studies, New Bolton Center, School of Veterinary Medicine, University of Pennsylvania, Kennett Square, PA 19348.

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Valentina De Monte Dipartimento delle Emergenze e dei Trapianti d'Organo, Sezione di Chirurgia Veterinaria, Università degli Studi di Bari, 70010 Valenzano, Bari, Italy.

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Salvatore Grasso Dipartimento delle Emergenze e dei Trapianti d'Organo, Sezione Anestesia e Terapia Intensiva, Università degli Studi di Bari, Ospedale Policlinico, 70124 Bari, Italy.

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Antonio Crovace Dipartimento delle Emergenze e dei Trapianti d'Organo, Sezione di Chirurgia Veterinaria, Università degli Studi di Bari, 70010 Valenzano, Bari, Italy.

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Abstract

Objective—To evaluate the effects of 10 cm H2O of positive end-expiratory pressure (PEEP) on lung aeration and gas exchange in mechanically ventilated sheep during general anesthesia induced and maintained with propofol.

Animals—10 healthy adult Bergamasca sheep.

Procedures—Sheep were sedated with diazepam (0.4 mg/kg, IV). Anesthesia was induced with propofol (5 mg/kg, IV) and maintained with propofol via constant rate infusion (0.4 mg/kg/min). Muscular paralysis was induced by administration of vecuronium (25 μg/kg, bolus IV) to facilitate mechanical ventilation. After intubation, sheep were positioned in right lateral recumbency and mechanically ventilated with pure oxygen and zero end-expiratory pressure (ZEEP). After 60 minutes, 10 cm H2O of PEEP was applied for 20 minutes. Spiral computed tomography of the thorax was performed, and data were recorded for hemodynamic and gas exchange variables and indicators of respiratory mechanics after 15 (T15), 30 (T30), and 60 (T60) minutes of ZEEP and after 20 minutes of PEEP (TPEEP). Computed tomography images were analyzed to determine the extent of atelectasis before and after PEEP application.

Results—At TPEEP, the volume of poorly aerated and atelectatic compartments was significantly smaller than at T15, T30, and T60, which indicated that there was PEEP-induced alveolar recruitment and clearance of anesthesia-induced atelectasis. Arterial oxygenation and static respiratory system compliance were significantly improved by use of PEEP.

Conclusions and Clinical Relevance—Pulmonary atelectasis can develop in anesthetized and mechanically ventilated sheep breathing pure oxygen; application of 10 cm H2O of PEEP significantly improved lung aeration and gas exchange.

Abstract

Objective—To evaluate the effects of 10 cm H2O of positive end-expiratory pressure (PEEP) on lung aeration and gas exchange in mechanically ventilated sheep during general anesthesia induced and maintained with propofol.

Animals—10 healthy adult Bergamasca sheep.

Procedures—Sheep were sedated with diazepam (0.4 mg/kg, IV). Anesthesia was induced with propofol (5 mg/kg, IV) and maintained with propofol via constant rate infusion (0.4 mg/kg/min). Muscular paralysis was induced by administration of vecuronium (25 μg/kg, bolus IV) to facilitate mechanical ventilation. After intubation, sheep were positioned in right lateral recumbency and mechanically ventilated with pure oxygen and zero end-expiratory pressure (ZEEP). After 60 minutes, 10 cm H2O of PEEP was applied for 20 minutes. Spiral computed tomography of the thorax was performed, and data were recorded for hemodynamic and gas exchange variables and indicators of respiratory mechanics after 15 (T15), 30 (T30), and 60 (T60) minutes of ZEEP and after 20 minutes of PEEP (TPEEP). Computed tomography images were analyzed to determine the extent of atelectasis before and after PEEP application.

Results—At TPEEP, the volume of poorly aerated and atelectatic compartments was significantly smaller than at T15, T30, and T60, which indicated that there was PEEP-induced alveolar recruitment and clearance of anesthesia-induced atelectasis. Arterial oxygenation and static respiratory system compliance were significantly improved by use of PEEP.

Conclusions and Clinical Relevance—Pulmonary atelectasis can develop in anesthetized and mechanically ventilated sheep breathing pure oxygen; application of 10 cm H2O of PEEP significantly improved lung aeration and gas exchange.

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