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Query: UMLS:C0242706 (hyperoxia)
5,219 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of hyperoxia on the entry of bilirubin and albumin into the brain were studied in five to six-week-old male Sprague-Dawley rats. Bilirubin was infused at 20 mg/kg/hour for three hours through a carotid catheter, resulting in serum bilirubin levels of 200-220 microM at 180 minutes. Group 1 (n = 8) was normoxic at all times. Group 2 (n = 8) was given oxygen (FiO2 = 0.75 -0.80) for the last hour of the three-hour bilirubin infusion. Group 3 (n = 10) was given oxygen (FiO2 = 0.75 -0.80) for 24-27 hours prior to, as well as during the bilirubin infusion. No significant differences were found in brain bilirubin (as measured by chloroform extraction) or brain albumin (as measured by 125I-albumin uptake) between the groups. Under these experimental conditions, hyperoxia does not increase bilirubin deposition in rat brain nor does it cause opening of the blood-brain barrier as measured by albumin entry into the brain.
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PMID:Effects of hyperoxia on entry of bilirubin and albumin into rat brain. 350 57

We did two studies to see if severe neutropenia might reduce the severity or delay development of O2-induced lung microvascular injury. First, we treated 11 rabbits with nitrogen mustard until their circulating neurophil count decreased to less than 50/microliters of blood, after which the rabbits breathed pure O2 until death; nine other rabbits received no nitrogen mustard and had normal numbers of circulating neutrophils during O2 breathing. All rabbits died of respiratory failure with pulmonary edema, and although chemotherapy decreased the number of neutrophils in the lungs by greater than 90%, it did not influence survival time or extravascular lung water content. To see if severe neutropenia might slow the development of O2-induced lung microvascular injury, we assessed the effects of sustained hyperoxia on lung fluid balance in unanesthetized lambs treated with hydroxyurea, so that their absolute neutrophil count was less than 50/microliters of blood. We measured pulmonary arterial and left atrial pressures, cardiac output, lung lymph flow, and concentrations of protein in lymph and plasma during a 2- to 4-h control period and then daily for 2 to 4 h as the lambs continuously breathed pure O2. After 3 days of hyperoxia, lymph flow doubled and the concentration of protein in lymph increased from 3.3 +/- 0.5 to 4.2 +/- 0.3 g/dl. Tracer studies with 125I-albumin before and 3 days after the start of O2 breathing confirmed the development of increased lung vascular permeability to protein. All lambs died of respiratory failure with pulmonary edema after 3-5 days in O2.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxygen-induced lung microvascular injury in neutropenic rabbits and lambs. 398 Mar 93

Increased concentrations of angiotensin converting enzyme (ACE) were found in lung lavages from rabbits exposed to hyperoxia for 72 h and the concentrations of ACE were correlated with ratios of extravascular lung water to body weight (r = 0.69, p less than 0.05) and albumin concentrations in lung lavages (r = 0.89, p less than 0.01). In parallel studies, rabbits treated with nitrogen mustard in which granulocytopenia was maintained throughout the 72-h hyperoxic exposure period had less evidence of edematous lung injury and lower concentrations of ACE in their lung lavages than similarly treated rabbits in which granulocytopenia was not maintained. The results suggested that granulocytes contribute to acute edematous lung injury from hyperoxia and that ACE concentrations in lung lavages reflect this process.
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PMID:Angiotensin converting enzyme concentrations in the lung lavage of normal rabbits and rabbits treated with nitrogen mustard exposed to hyperoxia. 626 99

We injected Escherichia coli endotoxin, 2.5 mg/kg, intraperitoneally in rats, sequentially quantified alveolar inflammation during a 6-day period by several techniques, and observed the effect of previous exposure to hyperoxia on the intensity of alveolitis in this model. As noted in other models of endotoxemia, we found intravascular sequestration of leukocytes and an increase in the retention of 125I albumin in the lung 4 to 6 h after the injection of endotoxin. Bronchoalveolar lavage fluid (BALF) obtained at this time only slightly stimulated the migration of neutrophils in vitro, and the numbers and types of cells recovered by lavage were normal. Fifteen h after the injection of endotoxin, however, bronchoalveolar lavage fluid stimulated both random and directed migration of neutrophils in vitro, although recovery of neutrophils by lavage was increased only slightly. By 24 h, 125I albumin retention had returned to normal levels, but the chemotactic activity of BALF remained high, and the percentage and absolute number of neutrophils recovered by lung lavage were increased markedly. The recovery of neutrophils remained significantly elevated for 3 days but declined to control levels by 6 days, whereas the recovery of alveolar macrophages was increased at this time. Exposure to 100% O2 for 36 h prior to endotoxemia accelerated and intensified neutrophil influx into the lung and increased the stimulatory effect of BALF on neutrophil migration in vitro. We conclude that a single episode of endotoxemia in the rat causes a multi-phasic alveolar inflammatory response, and that this response is accelerated and intensified by prior, mild exposure to hyperoxia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Neutrophil alveolitis following endotoxemia. Enhancement by previous exposure to hyperoxia. 639 7

Vascular inflammatory response to hyperoxia (FIO2 greater than 0.98) was studied in awake jugular and carotid catheterized rats. Simultaneous i.v. injection of 125I albumin (125I A), 99mTc polymorphonuclear cells (99mTc PMN) and 51Cr red blood cells (51Cr RBC) allowed to study both the macromolecule exchange through vascular endothelium and the leukocyte uptake by several organs (liver, lungs, spleen) with respect to radiolabelled red blood cells, as an intravascular reference. Rats were exposed to O2 for 24, 38 and 45 h. They were anesthetized and killed by exanguination 15 to 120 min following the tracer injection. After 45 h exposure, the plasmatic 125I A half-life decreased significantly (158 +/- 42 min for the control; 106 +/- 34 min for the exposed animals). The ratio 125I A/51Cr RBC varied significantly in the lung. The iodinated albumin exchange through lung vascular endothelium was altered at the 24th h, with a significant difference reached by the 45th h. At the same time, the pulmonary decreasing curve of 99mTc/51Cr RBC ratio versus time was not not modified. In our experimental conditions, there was no detectable variation in the lung uptake and vascular transit of PMN cells. The discussion of the results must be related with the technics used in the present work when the albumin exchange increased.
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PMID:[Albumin exchange and polymorphonuclear vascular transit in hyperoxic pulmonary oedema in awake rats]. 688 53

To study the early changes in the lower respiratory tract in persons exposed to periods of hyperoxia usually considered safe, we evaluated 14 normal subjects by bronchoalveolar lavage before and immediately after 16.7 +/- 1.1 hours of breathing more than 95 per cent oxygen. Hyperoxia caused a significant alveolar-capillary "leak" as detected by the presence of increased plasma albumin and transferrin in lavage fluid. These changes were reversible, as shown at repeat lavage in four subjects two weeks after oxygen administration. Hyperoxia for an average of 17 hours did not change the total number or type of lung inflammatory and immune effector cells recovered by lavage (P greater than 0.05, all comparisons). However, alveolar macrophages from subjects exposed to oxygen released increased amounts of fibronectin (P less than 0.05) and alveolar-macrophage--derived growth factor for fibroblasts (P less than 0.01)--mediators thought to modulate fibroblast recruitment and proliferation in the alveolar wall. Thus, although some of the effects of exposure to 17 hours of more than 95 per cent oxygen are reversible, hyperoxia for even this short period lowers the structural or functional barriers that normally prevent alveolar-capillary "leak" and induces processes that can culminate in fibrosis of the alveolar wall.
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PMID:Pulmonary oxygen toxicity. Early reversible changes in human alveolar structures induced by hyperoxia. 688 81

In this study, we have used the rat model of hyperoxia to examine the molecular responses to oxidative stress in lung. We show that in addition to the antioxidant enzyme manganese superoxide dismutase, expression of a variety of stress-responsive genes including heme oxygenase-1, c-fos, c-jun, CAAT-enhancer binding protein (C/EBP)-beta, and C/EBP-delta were increased after hyperoxia. Increased c-fos, c-jun, C/EBP-beta, and C/EBP-delta mRNA expression was correlated with increased DNA binding activity of the transcription factor complexes activator protein 1 and C/EBP in tissue lysates. Because oxidative damage plays an important role in the aging process and little is known about the susceptibility of aged rats to hyperoxia, we also examined the relative tolerance of old rats to hyperoxia. Surprisingly, we observed that aged rats exhibit greater tolerance to hyperoxic stress than young rats. Old rats exhibited decreased arterial oxygen tension when compared to young rats after hyperoxia exposure. This increased tolerance coincided with decreased albumin levels in bronchoalveolar lavage and the delayed onset of activation of transcription factors and expression of oxidative stress-inducible genes in old rats. Transcription factor and stress-response gene activation may serve as useful molecular markers for oxidant lung injury.
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PMID:Molecular responses to hyperoxia in vivo: relationship to increased tolerance in aged rats. 759 40

The hypothesis that severe lung damage generated by acid aspiration or a 50-hour exposure to 100% oxygen aggravates ethanol-induced hemorrhagic mucosal lesions in the stomach was examined in the rat. Animals were either given intratracheally with pyrogen-free saline or HCl (pH 1.75) or exposed for 50 h to 100% oxygen before the intragastric application of 1 ml of 50 or 75% ethanol. All rats receiving 50% ethanol were also given 3% monastral blue, 3 min before ethanol administration as a vascular tracer. Lung acid damage and inflammation as assessed by bronchopulmonary lavage were severe. We observed a significant increase in extracellular lactate dehydrogenase beta-glucosaminidase, albumin and the number of polymorphonuclear leukocytes in the lavage fluid. The number of resident macrophages decreased significantly. Blood gas analysis was not influenced. Hemorrhagic gastric mucosal lesions after 50 or 75% ethanol increased from 4.4 or 8.2% to 9.8 or 13.1% after HCl and from 6.7 or 18.2% to 10.6 or 21.6% of the glandular stomach following oxygen exposure. The area of mucosal vascular damage caused by 50% ethanol as revealed by monastral blue labelling was 3.3 and 2.6 times larger in rats with lung damage induced by HCl or hyperoxia, respectively. Thus, severe lung damage predisposes to microvascular damage and aggravates chemically induced hemorrhagic mucosal lesions.
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PMID:Lung damage aggravates gastric mucosal lesions induced by ethanol in the rat. 765 45

Sodium transport across the lung epithelium is predominantly effected by apical amiloride-sensitive Na+ channels and basolaterally located ouabain-sensitive Na,K-ATPases. Previously, we reported that subacute hyperoxia caused an increase in active Na+ transport in rat lungs paralleling Na,K-ATPase upregulation in alveolar Type 2 cells isolated from the same lungs. In the present study we set out to quantify the amiloride-sensitive Na+ flux and ouabain-sensitive active Na+ transport in the isolated-perfused, fluid-filled lung model from rats exposed to 85% O2 for 7 d compared with normoxic control rats. We found increased transpulmonary albumin flux and permeability to small solutes (Na+ and mannitol) in hyperoxic rat lungs compared with controls. Amiloride (10(-5) M) instilled into rat airspaces inhibited active Na+ transport by approximately 62% in control rat lungs and by approximately 87% in lungs from rats exposed to hyperoxia, without further changing permeability for Na+ and mannitol. Ouabain (10(-5)M) perfused through the pulmonary circulation decreased active Na+ transport by approximately 40% in normal rat lungs and by approximately 52% in lungs from rats exposed to hyperoxia. We conclude that active Na+ transport and edema clearance are increased in the subacute hyperoxic lung injury in rats, caused in part by the upregulation of amiloride-sensitive apical Na+ channels and alveolar epithelial Na,K-ATPases. Conceivably, the upregulation of alveolar epithelial Na+ channels and Na,K-ATPases protects against the effects of lung injury in this model by contributing to effective edema clearance.
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PMID:Mechanisms of lung liquid clearance during hyperoxia in isolated rat lungs. 773 9

Ventilator-induced lung injury in children and adults is characterized by an initial inflammatory phase. To investigate whether the inflammatory cytokine, IL-1, plays a role in this process, a rabbit model of ventilator-induced injury was created. Animals maintained under pentobarbital anesthesia were primed for injury by undergoing lung lavage with 22 mL/kg of saline and then ventilated for 8 h with either FIO2 0.21 and normal pressures or FIO2 1.0 and high ventilator pressures. The animals exposed to hyperoxia/hyperventilation demonstrated a greater increase in lung lavage neutrophil counts and a higher histological injury score, as well as a faster decline in oxygenation compared to the control animals. A third group of rabbits received 800 micrograms of recombinant IL-1 receptor antagonist after lung lavage and prior to the exposure to FIO2 1.0 and high ventilator pressures. These animals had significantly lower concentrations of albumin and elastase and lower neutrophil counts in their lungs after the 8-h ventilatory period compared to hyperoxia/hyperventilation rabbits. IL-1 blockade had no effect on the decline in dynamic compliance and oxygenation seen in saline-treated hyperoxic/hyperventilated rabbits. IL-1 is a mediator of acute inflammation due to ventilator-induced lung injury.
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PMID:Effect of IL-1 blockade on inflammatory manifestations of acute ventilator-induced lung injury in a rabbit model. 777 27


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