Noninvasive evaluation of acute capillary permeability changes during high-volume ventilation in rats with and without hypercapnic acidosis.

Abstract	OBJECTIVE: To evaluate whether hypercapnic acidosis attenuates acute alterations of pulmonary capillary permeability due to high lung stretch in rats using a simple, noninvasive, scintigraphic method. DESIGN: Prospective, randomized, controlled animal study. SETTING: University research laboratory. SUBJECTS: Male adult Wistar rats weighing 291 +/- 7.5 g. INTERVENTIONS: Three groups of rats were studied: controls ventilated with a low (6 mL/kg body weight) tidal volume and rats ventilated with a high (38 mL/kg body weight) tidal volume under normocapnic (Paco(2) = 35.2 +/- 1.65 mm Hg) or hypercapnic (Paco(2) = 102.5 +/- 5.63 mm Hg) conditions. MEASUREMENTS AND MAIN RESULTS: Pulmonary capillary permeability alterations were assessed by monitoring the rate of (111)In-transferrin accumulation in lung tissue. Respiratory system pressure-volume curves were registered and analyzed. High tidal volume ventilation increased In-transferrin plasma to lung flux in such a way that I(111)In-transferrin behaved like a marker of water. The rate of initial (first 30 mins of high tidal volume ventilation) lung transferrin accumulation measured by scintigraphy (standardized lung/heart ratio) was steady, correlated with the percent decrease in respiratory system compliance (a marker of edema progression), and did not differ between normocapnic and hypercapnic groups (18.9 +/- 3.97 vs. 14.2 +/- 2.89%/hr, not significant). However, lung In-tranferrin accumulation rate was highly scattered due to variable interindividual mechanical properties of the respiratory system. This rate was correlated with initial values of volume of the upper inflection point of the pressure-volume curve (r = -.53, p < .001) and end-inspiratory pressure (r = .54, p < .001). Mechanical properties were similar in normocapnic and hypercapnic rats. There was no difference between In-transferrin accumulation rates in these rats when a stringent selection was made based on end-inspiratory pressure (28-32 cm H(2)O) or body weight (330-360 g). CONCLUSIONS: Hypercapnic acidosis does not influence in vivo the acute increase in pulmonary capillary permeability due to high-volume ventilation.
Authors	François Bouvet, Didier Dreyfuss, Rachida Lebtahi, Geneviève Martet, Dominique Le Guludec, Georges Saumon
Journal	Critical care medicine (Crit Care Med) Vol. 33 Issue 1 Pg. 155-60; discussion 250-2 (Jan 2005) ISSN: 0090-3493 [Print] United States
PMID	15644663 (Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
Chemical References	Indium Radioisotopes Transferrin Oxygen
Topics	Acidosis, Respiratory (diagnostic imaging, physiopathology) Animals Capillary Permeability (physiology) High-Frequency Ventilation Hypercapnia (diagnostic imaging, physiopathology) Indium Radioisotopes Lung (blood supply) Lung Compliance (physiology) Male Oxygen (blood) Pulmonary Edema (diagnostic imaging, physiopathology) Radionuclide Imaging Rats Rats, Wistar Tidal Volume (physiology) Transferrin

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