UMLS:C0034063 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UMLS:C0034063 (pulmonary edema)
10,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Anisodamine (ADM, 654-2, 30 mg/kg) and tetramethylpyrazine (TMP, 120 mg/kg) have shown an apparent preventive effect on pulmonary edema (PE). In this study, the nonhemodynamic mechanism was studied: The dynamic changes of PaO2, O2Sat, PaCO2, and blood pH were measured, and RBC superoxide dismutase (SOD) and plasma and bronchoalveolar lavage (BAL) PGE2 levels were estimated. It was concluded that ADM and TMP exerted inhibitory effects on the hypoxic state. The ability of ADM and TMP to adjust RBC SOD and PGE2 levels may be one of the preventive mechanisms of the drugs.
...
PMID:Hemodynamic and nonhemodynamic mechanisms of experimental pulmonary edema in rats and the effects of anisodamine and tetramethylpyrazine--estimation of blood gas analysis, RBC superoxide dismutase and prostaglandin E2 in plasma and bronchoalveolar lavage (Part 3). 803 66

Because fetal rat lungs have lower baseline levels of both surfactant and antioxidant enzymes than full-term newborn rats, we questioned whether prematurely delivered rats might be more susceptible to O2 toxicity than those born at term. In the present studies, prematurely delivered rats (gestational d 21 of 22) and full-term rat pups were simultaneously put in > 95% O2 after birth. Surprisingly, we found that the preterm rats were not more susceptible to O2-induced lung damage and lethality than full-term newborns, but, in fact, the composite percentage of survival was even greater in the preterm pups from 7 to 9 d in hyperoxia and were similar thereafter up to 14 d in high O2. In addition, the preterm rats showed significantly decreased lung wet/dry weight ratios and consistently less severe pathologic evidence of pulmonary edema compared with term rats at 6 and 8 d of O2 exposure. The premature pups demonstrated the capability of inducing pulmonary antioxidant enzyme responses to hyperoxia by 3 d, and had significantly elevated copper-zinc superoxide dismutase, catalase, and glutathione peroxidase activities (and lung surfactant contents) at 6 d of O2 exposure compared with the term rats in O2. The rates of lung total O2 consumption and cyanide-resistant O2 consumption at d 6 in hyperoxia were not different for preterm versus term pups.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Comparative responses of premature versus full-term newborn rats to prolonged hyperoxia. 816 59

The effects of a competitive neutrophil elastase (NE) inhibitor, ONO-5046, and a recombinant human superoxide dismutase on leukotriene B4 (LTB4)-induced polymorphonuclear leukocyte (PMN)-mediated increase in microvascular permeability in isolated non-blood-perfused rabbit lungs were studied. Pulmonary microvascular permeability and lung edema were evaluated by use of the fluid filtration coefficient (Kf) and the wet-to-dry lung weight ratio (W/D), respectively. Pulmonary capillary pressure was estimated by the double occlusion technique. NE activity in the perfusate was determined using a spectrophotometric method. The PMNs (2-3 x 10(8) cells) were added into the perfusate in all groups of lungs. Injection of LTB4 (5 micrograms) increased Kf and W/D without affecting pulmonary arterial or capillary pressure. The LTB4-induced lung injury was closely associated with the increase in NE activity in the perfusate. Infusion of ONO-5046 (1 or 10 mg.kg-1 x h-1) inhibited the LTB4-induced increases in Kf, W/D, and perfusate NE activity in a dose-dependent fashion. Infusion of recombinant human superoxide dismutase (80,000 U.kg-1 x h-1) attenuated the LTB4-induced increases in Kf and W/D, although it did not influence the elevation of perfusate NE activity induced by LTB4. These results suggest that both NE and superoxide anion play important roles in the LTB4-induced PMN-mediated increase in pulmonary microvascular permeability.
...
PMID:Roles of neutrophil elastase and superoxide anion in leukotriene B4-induced lung injury in rabbit. 817 52

Respiratory complications, especially pulmonary edema, account for over 50% of mortalities in inhalation injuries. This study was conducted to determine the effect of free radical scavengers and hyperbaric oxygen (HBO) in vivo on reducing pulmonary edema. Adult New Zealand rabbits were allowed to breath cooled, cotton smoke until a significant inhalation lung injury was produced. Five percent of body weight lactated Ringer's solution was then administered i.v. over 2 h. The following free radical scavengers were given as bolus infusions at the beginning of fluids resuscitation: superoxide dismutase, catalase, butylated hydroxytoluene/piperonyl butoxide, and mannitol. At the completion of fluid administration, half of the subjects were given HBO treatment. Pulmonary edema was then measured as extravascular lung water and wet/dry lung weight. Results indicate that free radical scavengers or HBO reduce pulmonary edema. Free radical scavengers in conjunction with HBO showed no significant improvement over HBO or free radical scavengers alone.
...
PMID:Effect of radical scavengers and hyperbaric oxygen on smoke-induced pulmonary edema. 818 May 64

Exposure of rats to hyperoxia or to treatment with endotoxin, increases lung manganese superoxide dismutase (MnSOD) gene expression. However, the paths by which these environmental signals are transduced into enhanced MnSOD gene expression are unknown. We now provide evidence that heterotrimeric G proteins are involved in the hyperoxia-induced increase in lung MnSOD gene expression but that pertussis toxin-sensitive G proteins are not involved in the endotoxin-induced elevation of lung MnSOD gene expression. We also show that treating rats with pertussis toxin decreased lung MnSOD activity approximately 50%. This decline in MnSOD activity occurred without a change in the lung activity of copper-zinc SOD, catalase, or glutathione peroxidase. In air-breathing rats, the pertussis toxin-induced decrease in MnSOD activity was associated with the development of lung edema, pleural effusion with a high concentration of protein, and biochemical evidence of lung oxygen toxicity. Compared to air-breathing rats, maintenance of pertussis toxin-treated rats under hypoxic or hyperoxic conditions respectively decreased or increased intrathoracic fluid. Endotoxin treatment elevated lung MnSOD activity and protected pertussis toxin-treated rats from an increase in intrathoracic fluid.
...
PMID:Pertussis toxin treatment alters manganese superoxide dismutase activity in lung. Evidence for lung oxygen toxicity in air-breathing rats. 820 Sep 62

The problem of whether or not active oxygen species are involved in pulmonary injury by diesel exhaust particles (DEP) was investigated. We found that DEP could produce superoxide O2.- and hydroxyl radical (.OH) in vitro without any biological activating systems. In this reaction system, O2.- and .OH productions were inhibited by addition of superoxide dismutase (SOD) and dimethylsulfoxide, respectively. DEP which were washed with methanol could no longer produce O2.- and .OH, indicating that active components were extractable with organic solvents. These oxygen radicals were also identified by electron spin resonance (ESR) measurement. Furthermore, DEP instilled intratracheally to mouse caused high mortality at low dose, although methanol-washed DEP did not kill any mouse. The cause of death seemed to be pulmonary edema mediated by endothelial cell damage. The instilled DEP markedly decreased the activities of SOD, glutathione peroxidase, and glutathione S-transferase in mouse lungs. On the other hand, the death rate and lung injury were markedly prevented by polyethylene glycol conjugated SOD (PEG-SOD) pretreatment prior to DEP administration. The mortality and lung injury by DEP were also suppressed by butylated hydroxytoluene (BHT) pretreatment. From these results, it was suggested that most parts of DEP toxicity in lungs are due to active oxygen radicals such as O2.- and .OH, and that the cause of death is due to pulmonary edema mediated by endothelial cell damage.
...
PMID:Biological effects of diesel exhaust particles. I. In vitro production of superoxide and in vivo toxicity in mouse. 838 49

Pulmonary edema formation and the role of polymorphonuclear leukocytes (PMN) was evaluated during the generalized Shwartzman reaction (GSR) model in rabbits. Chemiluminescence (CL) and superoxide (O2-) production activity stimulated by FMLP were measured in circulating PMN after a single intravenous injection of endotoxin (E. coli 026:B6, 40 micrograms/kg) (E1). CL peaked at 36 hr after E1 injection and then decreased gradually to a normal range within 7 days. O2- production changed in a similar fashion. On the other hand, the PMN count peaked at 72 hr and remained at a high value until day 7. To induce GSR, a second venous injection of endotoxin (40 micrograms/kg) (E2) was administered 36 hr after the first one (E1). Four times as many PMN were observed in the lung capillaries 4 hr after the second endotoxin injection than after the first endotoxin injection (4 hr). The degree of lung edema formed increased after E2, but did not increase after E1. An alveolar hyaline-like exudate was observed 24 hr after E2. A continuous intravenous injection of superoxide dismutase (SOD) plus catalase or PMN depletion, prevented the development of post-E2 lung edema. If E2 was given 7 days after E1, no lung edema formed at all. These data indicate that oxygen free radicals from activated PMN by endotoxin play an important role in prolonged lung edema formation in the GSR model.
...
PMID:Prolonged lung edema formation during the generalized Shwartzman reaction in rabbits--can it be a model for septic lung disease? 838 87

Diesel engine-powered vehicles emit some 30 to 100 times more particles than do gasoline engine cars. We previously reported that diesel exhaust particles (DEP) instilled intratracheally into mouse caused lung edema accompanying endothelial cell damage. In order to clarify further the biological effects of DEP on the respiratory system, the primary target of DEP instillation, we examined the direct action of DEP on isolated tissues and the cytotoxicity of DEP on cultured cells of respiratory tracts in guinea pigs. DEP were collected on glass fiber filters from a light-duty (2730 cc), four cylinder diesel engine. DEP induced a dose-dependent relaxation in tracheal smooth muscle and lung parenchymal preparations from guinea pigs. Neither propranolol nor ranitidine inhibited the relaxing effect of DEP on tracheal preparations. DEP also exhibited concentration- and time-dependent cytotoxicity on cultured tracheal smooth muscle cells and lung fibroblasts from guinea pigs, as assessed by specific [51Cr] release. These cytotoxicities induced by DEP were significantly inhibited by catalase, deferoxamine and MK-447, whereas SOD and mannitol had little effect. These inhibitory effects were blunted by the higher concentration of DEP. These results suggest that the cytotoxicity of DEP may cause dysfunction of respiratory tissues, which are mediated via oxygen radicals, probably hydroxyl radicals or hydrogen peroxides.
...
PMID:Biological effects of diesel exhaust particles (DEP) on tissues and cells isolated from respiratory tracts of guinea pigs. 874 91

Pulmonary vascular endothelial cells are an important barrier that helps keep lung tissue intact. These cells are exposed to potentially injurious cells and to harmful mediators that are produced in or released into the blood. The endothelial cells may then be stimulated and injured. Stimulated and injured pulmonary vascular endothelial cells can themselves produce and release injury-promoting mediators. Using isolated perfused rat lungs and cultured human pulmonary endothelial cells, we assessed the effect of neutrophil-derived injurious mediators, leukotoxin, and neutrophil elastase on the pulmonary endothelium. Both mediators caused high-permeability pulmonary edema in the isolated lungs and caused dose-dependent and time-dependent damage in the cell cultures. Injury due to leukotoxin was suppressed in the presence of LNMMA or superoxide dismutase and injury due to neutrophil elastase was suppressed by neutrophil elastase inhibitors. These data indicate that these mediators cause lung injury via different mechanisms and that they may synergistically evoke clinical lung injury.
...
PMID:[Lung injury and pulmonary vascular endothelial cell injury]. 875 10

Reactive oxygen metabolites (ROMs) are thought to play a key role in the pathogenesis of the adult respiratory distress syndrome (ARDS). Accordingly, the use of ROM scavengers, such as N-acetyl-cysteine or dimethylthiourea, as therapeutic adjuncts to prevent oxidant-mediated damage to the lung have been evaluated extensively in animal models of ARDS. Results with this approach have been quite variable among studies. Another strategy that has been examined in animal models of ARDS is the administration of various enzymes, particularly superoxide dismutase (SOD) or catalase (CAT), in an effort to promote the conversion of ROMs to inactive metabolites. In theory, this strategy should be more effective than the use of ROM scavengers since a single molecule of a catalytically active molecule can neutralize a large number of molecules of a reactive species, whereas most scavengers act in a stoichiometric fashion to neutralize radicals on a mole-for-mole basis. This notion is supported by studies showing that prophylactic treatment with CAT provides impressive protection against acute lung injury induced in experimental animals by the administration of lipopolysaccharide (LPS). Results with SOD have been more variable. Recently, we have utilized a porcine model of LPS-induced ARDS to investigate the therapeutic potential of EUK-8, a novel, synthetic, low molecular salen-manganese complex that exhibits both SOD-like and CAT-like activities in vitro. Using both pre- and post-treatment designs, we have documented that treatment with EUK-8 significantly attenuates many of the features of LPS-induced acute lung injury, including arterial hypoxemia, pulmonary hypertension, decreased dynamic pulmonary compliance, and pulmonary edema. These findings support the view that salen-manganese complexes warrant further evaluation as therapeutic agents for treatment or prevention of sepsis-related ARDS in humans.
...
PMID:Role of oxidant stress in the adult respiratory distress syndrome: evaluation of a novel antioxidant strategy in a porcine model of endotoxin-induced acute lung injury. 882 94

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>