Acute lung injury (ALI) is associated with det erioration of alveolar-capillary lining and transmigration and activation of inflammatory cells. Whereas a selective phosphodiesterase-4 (PDE4) inhibitor roflumilast has exerted potent anti-inflammatory properties, this study evaluated if its intravenous delivery can influence inflammation, edema formation, and respiratory parameters in rabbits with a lavage-induced model of ALI. ALI was induced by repetitive saline lung lavage (30 ml/kg). Animals were divided into 3 groups: ALI without therapy (ALI), ALI treated with roflumilast i.v. (1 mg/kg; ALI+Rofl), and healthy ventilated controls (Control), and were ventilated for following 4 h. Respiratory parameters (blood gases, ventilatory pressures, lung compliance, oxygenation indexes etc.) were measured and ca lculated regularly. At the end of experiment, animals were overdosed by anesthetics. Total and differential counts of cells in bronchoalveolar lavage fluid (BAL) were estimated microscopically. Lung edema was expressed as wet/dry lung weight ratio. Treatment with roflumilast reduced leak of cells (P<0.01), particularly of neutrophils (P<0.001), into the lung, decreased lung edema formation (P<0.01), and improved respiratory parameters. Concluding, the results indicate a future potential of PDE4 inhibitors also in the therapy of ALI., P. Kosutova, P. Mikolka, M. Kolomaznik, S. Rezakova, A. Calkovska, D. Mokra., and Obsahuje bibliografii
Acute lung injury was induced by intravenous injection of 20 //I of a mixture of equivalent volumes of capronic acid, caprilic acid and olive oil in intact anaesthetized rats and in isolated perfused rat lung preparations. Lung injury in intact rats resulted in an increase in lung weight related to body weight and in a decrease in the lung dry/wet weight ratio. Lung compliance, measured in a body plethysmograph, was decreased. Pao2 decreased and Pac02 increased in 10 and 20 min, respectively, after the beginning of the experiment. Mean blood pressure in pulmonary artery increased immediately after the injection. Isolated rat lungs were perfused at constant flow with physiological saline solution containing bovine albumin and meclofenamate. The injection of a mixture of capronic acid, caprilic acid and olive oil increased the baseline perfusion pressure and led to a release of endothelial cells into the perfusate. The perfusion flow-pressure relationship was shifted upwards. Both the extrapolated pressure axis, intercept and slope of the plot were significantly elevated. The described experimental lung injury is a suitable model for studies on the effects of vascular wall damage and transvascular fluid leak in pulmonary vasculature.
The respiratory system is constantly exposed to pathogens which enter the lungs by inhalation or via blood stream. Lipopolysaccharide (LPS), also named endotoxin, can reach the airspaces as the major component of the outer membrane of Gram-negative bacteria, and lead to local inflammation and systemic toxicity. LPS affects alveolar type II (ATII) cells an d pulmonary surfactant and although surfactant molecule has the effective protective mechanisms, excessive amount of LPS interacts with surfactant film and leads to its inactivation. From immunological point of view, surfactant specific proteins (SPs) SP-A and SP-D are best characterized, however, there is increasing evidence on the involvement of SP-B and SP-C and certain phospholipids in immune reactions. In animal models, the instillation of LPS to the respiratory system induces acute lung injury (ALI). It is of clinical importance that endotoxin-induced lung injury can be favorably influenced by intratracheal instillation of exogenous surfactant. The beneficial effect of this treatment was confirmed for both natural porcine and synthetic surfactants. It is believed that the surfactant preparations have anti-inflammatory properties through regulating cytokine production by inflammatory cells. The mechanism by which LPS interferes with ATII cells and surfactant layer, and its consequences are discussed below., M. Kolomaznik, Z. Nova, A. Calkovska., and Obsahuje bibliografii
Damage of alveolar-capillary barrier, inflammation, oxidative
injury, and lung cell apoptosis represent the key features of acute
lung injury (ALI). This study evaluated if selective
phosphodiesterase (PDE)-4 inhibitor roflumilast can reduce the
mentioned changes in lavage-induced model of ALI. Rabbits with
ALI were divided into 2 groups: ALI without therapy (A group)
and ALI treated with roflumilast i.v. (1 mg/kg; A+R group). One
group of healthy animals without ALI served as ventilated
controls (C group). All animals were oxygen-ventilated for further
4 h. At the end of experiment, total and differential counts of
cells in bronchoalveolar lavage fluid (BALF) and total and
differential counts of white blood cells were estimated. Lung
edema formation was assessed from determination of protein
content in BALF. Pro-inflammatory cytokines (TNFα, IL-6 and
IL-8) and markers of oxidation (3-nitrotyrosine, thiobarbituricacid reactive substances) were detected in the lung tissue and
plasma. Apoptosis of lung cells was investigated
immunohistochemically. Treatment with roflumilast reduced leak
of cells, particularly of neutrophils, into the lung, decreased
concentrations of cytokines and oxidative products in the lung
and plasma, and reduced lung cell apoptosis and edema
formation. Concluding, PDE4 inhibitor roflumilast showed potent
anti-inflammatory actions in this model of ALI.
Neonatal exposure to hyperoxia alters lung development in mice. We tested if retinoic acid (RA) treatment is capable to affect lung development after hyperoxic injury and to maintain structural integrity of lung. The gene of vascular endothelial growth factor A (VEGF-A) is one of the RA-responsive genes. Newborn BALB/c mice were exposed to room air, 40 % or 80 % hyperoxia for 7 days. One half of animals in each group received 500 mg/kg retinoic acid from day 3 to day 7 of the experiment. At the end of experiment we assessed body weight (BW), lung wet weight (LW), the wet-to-dry lung weight ratio (W/D) and the expression of mRNA for VEGF-A and G3PDH genes. On day 7 the hyperoxia-exposed sham-treated mice (group 80) weighed 20 % less than the room air-exposed group, whereas the 80 % hyperoxic group treated with RA weighed only 13 % less than the normoxic group. W/D values in 80 and 80A groups did not differ, although they both differed from the control group and from 40 groups. There was a significant difference between 40 and 40A groups, but the control group was different from 40 group but not from 40A groups. The 80 and 80A groups had mRNA VEGF-A expression lowered to 64 % and 41 % of the control group. RA treatment of normoxic and mild hyperoxic groups increased mRNA VEGF-A expression by about 50 %. We conclude that the retinoic acid treatment of newborn BALB/c mice exposed for 7 days to 80 % hyperoxia reduced the growth retardation in the 80 % hyperoxic group, reduced the W/D ratio in the 40 % but not in the 80 % hyperoxic group. Higher VEGF-A mRNA expression in the 80 % hyperoxic group treated with RA was not significant compared to the 80 % hyperoxic group., M. Zimová-Herknerová, J. Mysliveček, P. Potměšil., and Obsahuje bibliografii a bibliografické odkazy