Objective: We hypothesized that a 50% increase in respiratory system elastance (Ers) would indicate similar degree of lung damage (equi-damage, ED), independently of ventilation strategy. Design and setting: A prospective, randomized animal laboratory investigation at a university hospital laboratory. Subjects: 35 anesthetized, paralyzed, mechanically ventilated male Sprague-Dawley rats. Interventions: Each rat was ventilated with a different combination of tidal volume, positive end-expiratory pressure, and inspired fraction of oxygen. Ers was determined throughout the experiment; the studies were interrupted when Ers reached 150% (ED) of its baseline value, or after 5 h. Measurements and results. Lung wet to dry weight ratio (W/D) was assessed. Morphological damage of the lung was scored on a grading of perivascular edema, hemorrhage, and breaks in the alveolar septa to obtain a total injury score. Twenty-four rats achieved an Ers of 150%: nine within 1 h (class 1), nine in 1-2 h (class 2), and six in 2-5 h (class 3). Eleven rats did not reach the target 50% increase in Ers (class 4). W/D was higher in rats that reached the target than in those that did not. W/D did not differ among rats that reached ED. Similarly, the total injury score did not differ among classes 1-3 but was higher than class 4. Conclusions: In the setting of VILI a 50% increase in Ers corresponds to an equal level of lung damage, irrespective of ventilatory setting and time of ventilation.

Sibilla, S., Tredici, S., Porro, G., Irace, M., Guglielmi, M., Nicolini, G., et al. (2002). Equal increases in respiratory system elastance reflect similar lung damage in experimental ventilator-induced lung injury. INTENSIVE CARE MEDICINE, 28(2), 196-203.

Equal increases in respiratory system elastance reflect similar lung damage in experimental ventilator-induced lung injury

NICOLINI, GABRIELLA;TREDICI, GIOVANNI;
2002

Abstract

Objective: We hypothesized that a 50% increase in respiratory system elastance (Ers) would indicate similar degree of lung damage (equi-damage, ED), independently of ventilation strategy. Design and setting: A prospective, randomized animal laboratory investigation at a university hospital laboratory. Subjects: 35 anesthetized, paralyzed, mechanically ventilated male Sprague-Dawley rats. Interventions: Each rat was ventilated with a different combination of tidal volume, positive end-expiratory pressure, and inspired fraction of oxygen. Ers was determined throughout the experiment; the studies were interrupted when Ers reached 150% (ED) of its baseline value, or after 5 h. Measurements and results. Lung wet to dry weight ratio (W/D) was assessed. Morphological damage of the lung was scored on a grading of perivascular edema, hemorrhage, and breaks in the alveolar septa to obtain a total injury score. Twenty-four rats achieved an Ers of 150%: nine within 1 h (class 1), nine in 1-2 h (class 2), and six in 2-5 h (class 3). Eleven rats did not reach the target 50% increase in Ers (class 4). W/D was higher in rats that reached the target than in those that did not. W/D did not differ among rats that reached ED. Similarly, the total injury score did not differ among classes 1-3 but was higher than class 4. Conclusions: In the setting of VILI a 50% increase in Ers corresponds to an equal level of lung damage, irrespective of ventilatory setting and time of ventilation.
Articolo in rivista - Articolo scientifico
ventilator-induced lung injury; respiratory system elastance
English
2002
28
2
196
203
none
Sibilla, S., Tredici, S., Porro, G., Irace, M., Guglielmi, M., Nicolini, G., et al. (2002). Equal increases in respiratory system elastance reflect similar lung damage in experimental ventilator-induced lung injury. INTENSIVE CARE MEDICINE, 28(2), 196-203.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/38695
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