UMLS:C0034063 - FACTA Search

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

We tested the preventive effects of catalase, an enzymatic scavenger of hydrogen peroxide, or dimethyl sulfoxide (DMSO), a hydroxyl radical scavenger, on intravenous alloxan-induced lung edema in four groups of pentobarbital sodium-anesthetized, ventilated dogs for 3 h: saline (20 ml.kg-1.h-1) infusion alone (n = 5), alloxan (75 mg/kg) + saline infusion (n = 5), catalase (150,000 U/kg) + alloxan + saline infusion (n = 5), or DMSO (4 mg/kg) + alloxan + saline infusion (n = 5). Catalase or DMSO significantly prevented the increase in plasma thromboxane B2 and 6-keto-prostaglandin F1 alpha over 3 h after alloxan and the accumulation of extravascular lung water after 3 h [3.95 +/- 0.52 (SE) g/g with catalase, 3.06 +/- 0.42 g/g with DMSO] but not early pulmonary arterial pressor response. An electron microscopic study indicated that catalase or DMSO significantly reduced the endothelial cellular damages after alloxan. These findings strongly suggest that hydrogen peroxide and hydroxyl radical are major mediators responsible for intravenous alloxan-induced edematous lung injury in anesthetized ventilated dogs.
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PMID:Pretreatment with catalase or dimethyl sulfoxide protects alloxan-induced acute lung edema in dogs. 144 76

Inhibitors of cytochrome P450, such as SK&F 525-A, prolong the duration of xylazine-ketamine anesthesia and cause pulmonary edema (PE) and death in rats. To determine the cause of PE, Sprague-Dawley rats were given a single dose of xylazine (21 mg/kg, im) alone or in combination with ketamine (45 mg/kg, im) and/or SK&F 525-A (50 mg/kg, ip) and percentage lung to body weight (%LW/BW) ratios (as an indicator of PE) were compared. The results indicated that xylazine caused PE which was independent of ketamine and was enhanced by SK&F 525-A. Subsequently, it was determined that 42 mg/kg xylazine, im, is an optimal edemagenic dose. Xylazine (42 mg/kg, im) increased the %LW/BW ratio as compared to control. Pleural effusion (PLE) of various amounts was observed in 75% of the animals. The pleural fluid to serum protein ratio for xylazine was similar to that obtained for alpha-naphthylthiourea (5 mg/kg, ip). Extensive serous PLE and alveolar edema with hemorrhage were found at necropsy in xylazine-treated rats. Pretreatment with yohimbine (4.2 mg/kg), prazosin (20 mg/kg), tolazoline (20 mg/kg), yohimbine (4.2 mg/kg) plus prazosin (20 mg/kg), atropine (20 mg/kg), dimethyl sulfoxide (DMSO) (7.8 g/kg), allopurinol (50 mg/kg), superoxide dismutase (20,000 U/kg), catalase (20,000 U/kg), BW755C (50 mg/kg), ibuprofen (50 mg/kg), cystathionine (100 mg/kg) plus taurine (100 mg/kg) did not affect the %LW/BW ratio. PLE was increased by yohimbine, yohimbine plus prazosin, and allopurinol, reduced by DMSO, and not changed in other groups. The results indicate that xylazine caused increased-permeability PE characterized by rapid onset, cellular damage and protein-rich pleural fluid. PE may not be mediated by adverse cardiovascular effects of xylazine and oxygen radicals are possibly involved in its etiology.
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PMID:Xylazine-induced pulmonary edema in rats. 190 33

Inhalation injury was produced in sheep that were chronically prepared for study. The injury was induced by insufflating them with smoke from burning cotton cloth. One group of animals was treated with the oxygen-free radical scavenger dimethylsulfoxide (DMSO) and heparin. Another group received heparin treatment alone, and a third was untreated. The drugs were nebulized into the tracheostomy at 4-hr intervals beginning 1 hr after injury. Following the inhalation injury, lung lymph flow and extravascular lung water measured by thermal-dye dilution technique were both increased. These elevations were associated with minor increases in pulmonary artery pressure, and, thus, since the lymph to plasma protein ratio was unchanged, this increased extravascular fluid formation was probably the result of an elevated microvascular permeability. These changes were associated with a reduction in alpha 2 macroglobulin antiprotease activity. The treated groups showed much smaller responses to the inhalation insult. This was especially true in the animals that received the DMSO. These findings support the concept that oxygen free radicals are responsible for the pulmonary edema associated with inhalation injury.
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PMID:Treatment of smoke-induced pulmonary injury with nebulized dimethylsulfoxide. 245 58

Recent studies suggest that lung lesions occurring in inhalation injury result from actions of oxygen-free radicals released from polymorphonuclear leukocytes marginating in the pulmonary microcirculation and tracheobronchial region. Peroxide and hydroxyl ions have been implicated as mediators in the increased microvascular permeability and pulmonary edema noted after inhalation injury. In this study we evaluated the use of an O2-free radical scavenger, dimethylsulfoxide (DMSO), and heparin in the treatment of smoke inhalation. Ewes (N = 26) that had been surgically prepared five days earlier were insufflated with smoke from burning cotton. There were four groups: controls (n = 7), DMSO (n = 6), heparin (n = 6), and DMSO plus heparin (n = 7). All animals were given ventilatory support to maintain their PO2 above 60 mmHg and their PCO2 below 45 mmHg. There was a significant difference in survival rates between groups. By 72 hours all seven of the control group were dead. All animals in the DMSO plus heparin group survived, four of the DMSO group died, and two of the heparin group died. Lung lymph flow was not as high in the DMSO plus heparin group as in the heparin-only group. DMSO was proved effective in reducing the lung injury associated with smoke inhalation.
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PMID:Dimethylsulfoxide with heparin in the treatment of smoke inhalation injury. 335 38

Thiourea (TU), a very effective hydroxyl radical (.OH) scavenger, has little value as a probe of .OH in vivo because it causes fatal pulmonary edema. To test the hypothesis that TU-induced lung injury results from .OH-mediated oxidation of TU to toxic cyanamide, we pretreated rats with .OH scavengers, dimethylsulfoxide (DMSO), ethanol, and mannitol, prior to treatment with TU (3 mg/kg), preventing 91, 63, and 53%, respectively, of increases in lung weight to body weight ratios and 93, 67, and 46% of increases in lung lavage albumin concentrations. Furthermore, treatment of rats with cyanamide (CYN) (100 mg/kg) also caused increases in lung weight to body weight ratios (CYN: 7.39 +/- 0.57 X 10(-3) vs. controls: 5.46 +/- 0.26). N,N'-dimethylation of TU (DMTU) prevented TU toxicity, because treatment with DMTU did not significantly increase lung weight to body weight ratios (DMTU: 5.12 +/- 0.16 X 10(-3) vs. controls: 5.46 +/- 0.26) or lung lavage albumin (DMTU: 14 +/- 1 mg/100 ml vs. controls: 11 +/- 1). DMTU remained a very effective in vivo .OH scavenger, increasing survival of lethally irradiated mice treated with 600 mg/kg DMTU to 79% compared with 8% in untreated controls.
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PMID:Prevention of thiourea-induced pulmonary edema by hydroxyl-radical scavengers. 641 79

DMSO is an amphipathic molecule with a highly polar domain and two apolar methyl groups, making it soluble in both aqueous and organic media. It is one of the most common solvents for the in vivo administration of several water-insoluble substances. Despite being frequently used as a solvent in biological studies and as a vehicle for drug therapy, the side-effects of DMSO (undesirable for these purposes) are apparent from its utilization in the laboratory (both in vivo and in vitro) and in clinical settings. DMSO is a hydrogen-bound disrupter, cell-differentiating agent, hydroxyl radical scavenger, intercellular electrical uncoupler, intracellular low-density lipoprotein-derived cholesterol mobilizing agent, cryoprotectant, solubilizing agent used in sample preparation for electron microscopy, antidote to the extravasation of vesicant anticancer agents, and topical analgesic. Additionally, it is used in the treatment of brain edema, amyloidosis, interstitial cystitis, and schizophrenia. Several systemic side-effects from the use of DMSO have been reported, namely nausea, vomiting, diarrhea, hemolysis, rashes, renal failure, hypertension, bradycardia, heart block, pulmonary edema, cardiac arrest, and bronchospasm. Looking at the multitude of effects of DMSO brought to light by these studies, it is easily understood how many researchers working with DMSO (or studying one of its specific effects) might not be fully aware of the experiences of other groups who are working with it but in a different context.
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PMID:Multidisciplinary utilization of dimethyl sulfoxide: pharmacological, cellular, and molecular aspects. 1266 39

The primary goal of this study was to determine whether Tx2-5, a sodium channel selective toxin obtained from the venom of the spider Phoneutria nigriventer, produced penile erection by means of nitric oxide mechanism. Toxin identity was analyzed by MALDI-TOF, ES-MS and N-terminal amino acid sequencing. Pretreating mice with the non-selective nitric oxide synthase (NOS) inhibitor N(omega)-Nitro-L-arginine methyl ester hydrochloride (L-NAME) and the selective neuronal-NOS inhibitor 7-Nitroindazole (7-NI) prior to Tx2-5 i.p. (10 microg/25 g mouse) injection challenged the hypothesis above. Controls were injected with the D-isomer or DMSO or saline. Results demonstrated that L-NAME inhibited penile erections in about half the animals treated, while 7-NI completely abolished this effect. Interestingly 7-NI also abolished all the other symptoms of intoxication induced by Tx2-5, including salivation, respiratory distress and death. Tx2-5 killed all the animals of the control group and no one in the 7-NI-treated group. We conclude that (1) intraperitoneal injections of Tx2-5 induce a toxic syndrome that include penile erection, hypersalivation and death by respiratory distress or pulmonary edema; (2) pretreatment with the non-selective NOS inhibitor L-NAME reduces the penile erection and partially protects from the lethal effects of Tx2-5; (3) pretreatment with the nNOS-selective inhibitor 7-NI completely abolishes all the toxic effects of Tx2-5, including penile erection and death suggesting that nNOS is the major player in this intoxication; (4) toxins from other animals that affect sodium channels in the same way as Tx2-5 and induce similar toxic syndromes may have as a major common target, the activation of nitric oxide synthases.
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PMID:Blockade of neuronal nitric oxide synthase abolishes the toxic effects of Tx2-5, a lethal Phoneutria nigriventer spider toxin. 1524 65

Acute lung injury (ALI) caused by phorbol myristate acetate (PMA) is characterized by pulmonary edema and inflammatory cells infiltration. PMA-activated neutrophils in vivo and in vitro to release free radicals, pro-inflammatory cytokines, nitric oxide (NO) and other mediators. These mediators may be the causes of pulmonary hypertension and increased microvascular permeability. In the present study, we used isolated perfused rat lungs from Sprague-Dawley (SD) rats. The purpose was to evaluate the effects of pretreatment of N-acetylcysteine (NAC) on the PMA-induced ALI and associated changes. PMA (2 microg kg(-1)) was introduced into the lung perfusate. NAC (150 mg kg(-1)) was administered 10 min before PMA. Thirty isolated lungs were randomly assigned to receive vehicle (dimethyl sulfoxide, DMSO, the solvent for PMA, 100 microg g(-1)), PMA alone and PMA with NAC pretreatment. There were 10 lungs in each group. We measured the lung weight (LW) to body weight (BW) ratio (LW/BW), LW gain (LWG), exhaled nitric oxide (NO) and protein concentration in bronchoalveolar lavage (PCBAL). The pulmonary arterial pressure (PAP) and microvascular permeability (K(fc)) were assessed. The concentration of nitrate/nitrite, methyl guanidine (MG), tumor necrosis factor(alpha) (TNF(alpha)) and interleukin-1(beta) (IL-1(beta)) in lung perfusate were determined. In addition, we also evaluate the lung injury by histopathological examination and by grading system for the lung injury score (LIS). PMA caused severe ALI as evidenced by the marked increases in LW changes, exhaled NO, PCBAL, histopathological changes, and LIS. It also increased the nitrate/nitrite, MG, TNF(alpha), and IL-1(beta) in lung perfusate. Pretreatment with NAC significantly attenuated these changes and abrogated the extent of ALI. Our results suggest that NAC exerts strong protective effects on the PMA-induced ALI and associated alterations. The mechanisms are possibly attributable to its antioxidant actions, inhibition of pro-inflammatory cytokines, and restoration of glutathione enzymes.
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PMID:N-acetylcysteine attenuates the acute lung injury caused by phorbol myristate acetate in isolated rat lungs. 1707 Nov 20

Acute respiratory distress syndrome (ARDS) is characterized by sudden onset of respiratory distress, infiltrates on radiographs consistent with pulmonary oedema, hypoxaemia and increased work in breathing. Infiltrates on radiographs are bilateral, but may be patchy or diffuse and fluffy or dense. It is associated with absence of left heart failure and a PaO2/FiO2 ratio of < or =200. Ethylene vinyl alcohol copolymer dissolved in dimethyl sulfoxide (DMSO), which was approved by the US FDA in July 2005, is used as an embolic agent for cerebral arteriovenous malformation (AVM). It is a biocompatible liquid polymer that precipitates and solidifies on contact with blood, thus forming a soft and spongy embolus. We report a case of ARDS following therapeutic embolization with ethylene vinyl alcohol copolymer for cerebral AVM under general anaesthesia. Experienced perioperative physicians adopted standard anaesthetic technique and monitoring for this procedure. Acute respiratory distress and hypoxaemia developed in the patient following extubation of the trachea. Infiltrates seen on postprocedural chest radiographs were consistent with pulmonary oedema. DMSO, the solvent for the ethylene vinyl alcohol copolymer, is excreted via the lungs after administration and we postulate that DMSO was the possible cause of ARDS in this patient. Monitoring of haemodynamic parameters (invasive blood pressure, electrocardiography) and ventilatory parameters (ETCO2, SpO2, airway pressure monitoring) are important in the recognition of this possible event. One should be vigilant and anticipate this complication following therapeutic embolization with ethylene vinyl alcohol polymer for the treatment of cerebral AVM.
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PMID:Severe pulmonary oedema following therapeutic embolization with Onyx for cerebral arteriovenous malformation. 1817 30

Purpose. We report a case of a 60-year-old male who underwent sequential Onyx embolizations of a cerebral arteriovenous malformation (AVM) which we implicate as the most likely etiology of subsequent acute respiratory distress syndrome (ARDS). Methods. Case report and literature review. Results. Shortly after the second Onyx embolization procedure, the patient declined from respiratory failure secondary to pulmonary edema. Clinical entities typically responsible for pulmonary edema including cardiac failure, renal failure, iatrogenic volume overload, negative-pressure pulmonary edema, and infectious etiologies were evaluated and excluded. The patient required mechanical ventilatory support for several days, delaying operative resection. The patient met clinical and radiographic criteria for ARDS. After excluding other etiologies of ARDS, we postulate that ARDS developed as a result of Onyx administration. The Onyx copolymer is dissolved in dimethyl sulfoxide (DMSO), a solvent excreted through the lungs and has been implicated in transient pulmonary side effects. Additionally, a direct toxic effect of the Onyx copolymer is postulated. Conclusion. Onyx embolization and DMSO toxicity are implicated as the etiology of ARDS given the lack of other inciting factors and the close temporal relationship. A strong physiologic rationale provides further support. Clinicians should consider this uncommon but important complication.
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PMID:Acute respiratory distress syndrome after onyx embolization of arteriovenous malformation. 2168 80

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