Keith J. Peevy scite author profile

High peak inspiratory pressures (PIP) during mechanical ventilation can induce lung injury. In the present study we compare the respective roles of high tidal volume with high PIP in intact immature rabbits to determine whether the increase in capillary permeability is the result of overdistension of the lung or direct pressure effects. New Zealand White rabbits were assigned to one of three protocols, which produced different degrees of inspiratory volume limitation: intact closed-chest animals (CC), closed-chest animals with a full-body plaster cast (C), and isolated excised lungs (IL). The intact animals were ventilated at 15, 30, or 45 cmH2O PIP for 1 h, and the lungs of the CC and C groups were placed in an isolated lung perfusion system. Microvascular permeability was evaluated using the capillary filtration coefficient (Kfc). Base-line Kfc for isolated lungs before ventilation was 0.33 +/- 0.31 ml.min-1.cmH2O-1.100g-1 and was not different from the Kfc in the CC group ventilated with 15 cmH2O PIP. Kfc increased by 850% after ventilation with only 15 cmH2O PIP in the unrestricted IL group, and in the CC group Kfc increased by 31% after 30 cmH2O PIP and 430% after 45 cmH2O PIP. Inspiratory volume limitation by the plaster cast in the C group prevented any significant increase in Kfc at the PIP values used. These data indicate that volume distension of the lung rather than high PIP per se produces microvascular damage in the immature rabbit lung.

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Lung Edema Caused by High Peak Inspiratory Pressures in Dogs: Role of Increased Microvascular Filtration Pressure and Permeability

Parker¹,

Hernandez²,

Longenecker³

et al. 1990

Am Rev Respir Dis

180

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Mechanical ventilation with high peak airway pressures (Paw) has been shown to induce pulmonary edema in animal experiments, but the relative contributions of transvascular filtration pressure and microvascular permeability are unclear. Therefore, we examined the effects of positive-pressure ventilation on two groups of open-chest dogs ventilated for 30 min with a peak Paw of 21.8 +/- 2.3 cm H2O (Low Paw) or 64.3 +/- 3.5 cm H2O (High Paw). No hemodynamic changes were observed in the Low Paw group during ventilation, but mean pulmonary artery pressure (Ppa) increased by 9.9 cm H2O, peak inspiratory Ppa by 24.6 cm H2O, and estimated mean microvascular pressure by 12.5 cm H2O during High Paw ventilation. During the same period, lung lymph flow increased by 435% in the High Paw and 35% in the Low Paw groups, and the terminal extravascular lung water/blood-free dry weight ratios were 5.65 +/- 0.27 and 4.43 +/- 0.13 g/g, respectively, for the two groups. Lung lymph protein clearances and minimal lymph/plasma ratios of total protein were significantly higher (p less than 0.05) after 2 h of increased left atrial pressure (PLA) in the High Paw group versus the Low Paw group, which indicates a significant increase in microvascular permeability. Lymph prostacyclin concentration in pulmonary lymph, measured as the stable metabolite 6-0-PGF1 alpha, was increased significantly by 70 to 150% from baseline (p less than 0.05) in both groups during the periods of increased Paw and increased PLA, but it was not significantly different between the groups.(ABSTRACT TRUNCATED AT 250 WORDS)

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The endothelium modulates adrenergic neurotransmission to canine pulmonary arteries and veins

Greenberg

Diecke

Peevy

et al. 1989

European Journal of Pharmacology

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Keith J. Peevy

Mechanisms of ventilator-induced lung injury

Chest wall restriction limits high airway pressure-induced lung injury in young rabbits

Lung Edema Caused by High Peak Inspiratory Pressures in Dogs: Role of Increased Microvascular Filtration Pressure and Permeability

The endothelium modulates adrenergic neurotransmission to canine pulmonary arteries and veins

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