Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The role of neutrophils in acute renal failure is controversial. Acute renal failure can clearly occur in the absence of neutrophils. However, recent studies using specific neutrophil markers indicate that neutrophils accumulate in postischemic kidneys. Moreover, reperfusion of ischemic kidneys with neutrophils worsens ischemic injury and causes kidney neutrophil retention. Neutrophil retention is dependent on the state of neutrophil activation and the duration of renal ischemia. This interaction could account for the high frequency of acute renal failure in conditions associated with prolonged prerenal asotemia and neutrophil priming such as the adult respiratory distress syndrome, or sepsis. Neutrophil retention is mediated by interaction of neutrophil integrins and endothelial cell ICAM-1 because maneuvers reducing the expression and/or function of these adhesion molecules is protective in experimental models of ischemia. Nitric oxide is a key modulator of neutrophil worsening of ischemic injury because maneuvers that decrease nitric oxide production worsen and those which increase nitric oxide protect ischemic kidneys from neutrophil effects. The clinical significance of neutrophils may relate to the observation that bioincompatible membranes activate complement, and retard recovery from acute renal failure. In conclusion, neutrophils are an important contributor to ischemic acute renal failure. It remains to be determined whether decreasing neutrophil function accelerates recovery in acute renal failure.
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PMID:The role of neutrophils in acute renal failure. 975 2

Reactive oxygen species (ROS) have been implicated in the pathogenesis of many clinical disorders such as adult respiratory distress syndrome, ischemia-reperfusion injury, atherosclerosis, neurodegenerative diseases, and cancer. Genetically engineered animal models have been used as a tool for understanding the function of various antioxidant enzymes in cellular defense mechanisms against various types of oxidant tissue injury. Transgenic mice overexpressing three isoforms of superoxide dismutase, catalase, and the cellular glutathione peroxidase (GSHPx-1) in various tissues show an increased tolerance to ischemia-reperfusion heart and brain injury, hyperoxia, cold-induced brain edema, adriamycin, and paraquat toxicity. These results have provided for the first time direct evidence demonstrating the importance of each of these antioxidant enzymes in protecting the animals against the injury resulting from these insults, as well as the effect of an enhanced level of antioxidant in ameliorating the oxidant tissue injury. To evaluate further the nature of these enzymes in antioxidant defense, gene knockout mice deficient in copper-zinc superoxide dismutase (CuZnSOD) and GSHPx-1 have also been generated in our laboratory. These mice developed normally and showed no marked pathologic changes under normal physiologic conditions. In addition, a deficiency in these genes had no effects on animal survival under hyperoxida. However, these knockout mice exhibited a pronounced susceptibility to paraquat toxicity and myocardial ischemia-reperfusion injury. Furthermore, female mice lacking CuZnSOD also displayed a marked increase in postimplantation embryonic lethality. These animals should provide a useful model for uncovering the identity of ROS that participate in the pathogenesis of various clinical disorders and for defining the role of each antioxidant enzyme in cellular defense against oxidant-mediated tissue injury.
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PMID:The nature of antioxidant defense mechanisms: a lesson from transgenic studies. 978 1

We investigated the effects of low-dose Beraprost sodium (BPS), a stable prostaglandin I2 (PGI2) analogue, on microvascular permeability and the plasma concentrations of thromboxane and adenosine 3',5'-cyclic monophosphate (cAMP) in blood-perfused rabbit lungs subjected to ischemia-reperfusion (I/R). After an ischemic insult for 2 h, saline as a vehicle, 3 pmol/L of BPS (BPS-1), 150 to 300 pmol/L of BPS (BPS-2), 900 pmol/L of BPS (BPS-3), or 60 micromol/L of indomethacin (IND) was administered into the reservoir, then the lungs were reperfused and reventilated for 1 h. Vascular permeability was assessed by determining the microvascular filtration coefficient (Kf, ml/min/mm Hg/100 g wet lung). I/R resulted in increases in vascular resistance, Kf, and thromboxane. BPS-2, BPS-3, and IND inhibited the increase in vascular resistance, and BPS-3 and IND attenuated the increases in Kf and thromboxane. BPS-3 increased, but IND decreased, the concentrations of cAMP in the perfusate. Perfusate thromboxane released after reperfusion was significantly correlated with Kf. We conclude that cyclooxygenase products play a critical role in I/R-induced lung vascular injury and that 900 pmol/L of BPS inhibits the production of thromboxane and enhances the permeability barrier via a cAMP-elevating effect. However, vasodilatory action of BPS may exacerbate the reperfused lung injury by increasing the flow through injured capillaries via inhibition of thromboxane-induced vasoconstriction.
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PMID:Effects of low-dose Beraprost sodium, a stable prostaglandin I2 analogue, on reperfusion injury to rabbit lungs. 981 23

In order to study the factors related to complement activation, the complement activation products C3bc and TCC were measured in plasma at admittance and during the stay in the intensive care unit in 108 consecutive patients with multiple injuries. These patients were admitted to the surgical department during a 4-month period. Complement activation occurred immediately after the trauma and correlated strongly with the Injury Severity Score and was inversely correlated to the Base Excess. Complement activation also correlated with the number of transfusions. Sepsis caused complement activation later during the stay in hospital. All seven patients developing the adult respiratory distress syndrome (ARDS) had increased complement activation, either on admission or later during the stay in the intensive care unit. Complement activation is known to contribute to organ damage following ischemia and reperfusion. Clinical studies have demonstrated the importance of early restoration of adequate circulation and the present demonstration of a strong negative correlation between complement activation and Base Excess indicates that early restoration of aerobic metabolism may reduce complement activation and the risk for organ dysfunction.
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PMID:Complement activation in injured patients occurs immediately and is dependent on the severity of the trauma. 1019 92

Acute respiratory distress syndrome (ARDS) and multiple organ failure (MOF) are the most common causes of death in surgical intensive care units. A variety of stimuli, such as major surgery, trauma, shock, thermal injury, acute pancreatitis, and ischemia-reperfusion injury, initiate a systemic inflammatory response that contributes to the development of these complications. Splanchnic hypoperfusion is a common clinical event in critically ill patients. Recently, measurement of the adequacy of gut circulation has been demonstrated as an excellent tool for prediction of outcome in these patients. The emphasis of this review is on events associated with intestinal ischemia-reperfusion and subsequent distant organ injury.
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PMID:[Splanchnic hypoperfusion and distant organ injury]. 1041 57

A 62-year-old patient with Leriche's syndrome and critical ischemia of the low extremities has undergone the surgery of aortofemoral grafting. A patient has developed the severe ARDS on the second day of reperfusion (bilateral diffuse infiltrates, PO2/FiO2 < 100, lung injury score was 3). Different ways of administration of bovine surfactant (SURFACTANT BL, Russia) were used during the treatment. Total application time was 84 hours, total dose was 4000 mg (50 mg/kg). Considerable improvement of lung function occurred after start of the continuous inhalation of surfactant with a constant rate of 63 mg/h. Two hours after this step PO2/FiO2 reached 400 mm Hg and remained stable 12 hours more, up to the end of surfactant administration. The patient was soon successfully extubated and discharged on the 25th day after surgery. It is supposed that in spite of a small total dose of bovine surfactant the success was achieved due to an early start of the surfactant replacement, continuous inhalation and its definite rate.
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PMID:[Continuous inhalation administration of surfactant-BL for control of adult respiratory distress syndrome after reconstruction of the abdominal aorta]. 1048 92

We used the isolated-perfused rat lung model to study the influence of pulmonary ventilation and surfactant instillation on the development of postreperfusion lung microvascular injury. We hypothesized that the state of lung inflation during ischemia contributes to the development of the injury during reperfusion. Pulmonary microvascular injury was assessed by continuously monitoring the wet lung weight and measuring the vessel wall (125)I-labeled albumin ((125)I-albumin) permeability-surface area product (PS). Sprague-Dawley rats (n = 24) were divided into one control group and five experimental groups (n = 4 rats per group). Control lungs were continuously ventilated with 20% O(2) and perfused for 120 min. All lung preparations were ventilated with 20% O(2) before the ischemia period and during the reperfusion period. The various groups differed only in the ventilatory gas mixtures used during the flow cessation: group I, ventilated with 20% O(2); group II, ventilated with 100% N(2); group III, lungs remained collapsed and unventilated; group IV, same as group III but pretreated with surfactant (4 ml/kg) instilled into the airway; and group V, same as group III but saline (4 ml/kg) was instilled into the airway. Control lungs remained isogravimetric with baseline (125)I-albumin PS value of 4.9 +/- 0.3 x 10(-3) ml x min(-1) x g wet lung wt(-1). Lung wet weight in group III increased by 1.45 +/- 0.35 g and albumin PS increased to 17.7 +/- 2.3 x 10(-3), indicating development of vascular injury during the reperfusion period. Lung wet weight and albumin PS did not increase in groups I and II, indicating that ventilation by either 20% O(2) or 100% N(2) prevented vascular injury. Pretreatment of collapsed lungs with surfactant before cessation of flow also prevented the vascular injury, whereas pretreatment with saline vehicle had no effect. These results indicate that the state of lung inflation during ischemia (irrespective of gas mixture used) and supplementation of surfactant prevent reperfusion-induced lung microvascular injury.
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PMID:Protective effect of lung inflation in reperfusion-induced lung microvascular injury. 1071 Mar 64

During ischaemia, the glycolytic pathway (Embden-Meyerhof) is up regulated in an attempt to produce ATP anaerobically. However, this is short-lived due to negative feedback on the key glycolytic enzyme phosphofructokinase by accumulating lactate. Fructose-1,6-diphosphate (FDP), a high energy intermediary metabolite of this pathway, is unique in that is enters glycolysis distal to this inhibitory site. Exogenously administered FDP should therefore theoretically yield ATP independent of lactate accumulation and thereby ameliorate ischaemic injury. Clinical benefit has been shown in coronary artery bypass grafting (CABG) surgery, congestive cardiac failure and adult respiratory distress syndrome. Ischaemia-reperfusion injury induced by cardiopulmonary bypass (CPB) presents clinically as an impairment of myocardial function in the postoperative period. At a cellular level this reflects myocardial metabolic changes and nucleotide degradation (directly linked to high energy phosphate turnover). Quantification of myocardial nucleotide catabolite release therefore provides useful information regarding intermediary metabolism and cytoprotection conferred to myocardial (inosine, uridine) and endothelial (hypoxanthine) tissue. The authors investigated the myocardial cytoprotective effects of FDP in 16 patients scheduled for elective CABG surgery. Aortic and coronary sinus blood were collected directly into liquid nitrogen and analysed by high performance liquid chromatography prior to CPB and at different time points after reperfusion. FDP was administered intravenously in 8 patients and 5% dextrose was administered in 8 other patients. Analysis of transmyocardial (coronary sinus-aortic) nucleotide metabolite levels showed increased release of inosine, hypoxanthine and uridine in both the FDP and the control groups following reperfusion. However, compared to baseline (pre-aortic clamping) values, hypoxanthine and inosine concentrations were significantly elevated at 0, 1, 5 and 10 minutes following reperfusion in the control group. This was in contrast to earlier recovery to baseline levels (after 5 minutes of reperfusion) in the FDP group. Furthermore, when compared to control group, the hypoxanthine and inosine concentrations were significantly decreased by FDP treatment. Uridine concentrations were significantly elevated at 1 and 5 minutes in the control group and no significant change was observed in the FDP group. In conclusion, these data suggest that FDP, through an intermediary metabolic effect, may contribute to myocardial and endothelial cytoprotection during the ischaemic insult of cardiac surgery.
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PMID:[Effect of fructose-1,6-diphosphate on myocardial purin and pyrimidin metabolism during coronary artery bypass grafting surgery]. 1103 10

Permissive hypercapnia, involving tolerance to elevated Pa(CO(2)), is associated with reduced acute lung injury (ALI), thought to result from reduced mechanical stretch, and improved outcome in ARDS. However, deliberately elevating inspired CO(2) concentration alone (therapeutic hypercapnia, TH) protects against ALI in ex vivo models. We investigated whether TH would protect against ALI in an in vivo model of lung ischemia-reperfusion (IR). Anesthetized open chest rabbits were ventilated (standard eucapnic settings), and were randomized to TH (FI(CO(2)) 0.12) versus control (FI(CO(2)) 0.00). Pa(CO(2)) and arterial pH values achieved in the TH versus CON groups were 101 +/- 3 versus 44.4 +/- 4 mm Hg and 7.10 +/- 0.03 versus 7.37 +/- 0.03, respectively. Following left lung ischemia and reperfusion, TH versus control was associated with preservation of lung mechanics, attenuation of protein leakage, reduction in pulmonary edema, and improved oxygenation. Indices of systemic protection included improved acid-base and lactate profile, in the absence of systemic hypoxemia. In the TH group, mean BALF TNF-alpha levels were 3.5% of CON levels (p < 0.01), and mean 8-isoprostane levels were 30% of CON levels (p = 0.02). Western blot analysis demonstrated reduced lung tissue nitrotyrosine in TH, indicating attenuation of tissue nitration. Finally, preliminary data suggest that TH may attenuate apoptosis following lung IR. We conclude that in the current model TH is protective versus IR lung injury and mechanisms of protection include preservation of lung mechanics, attenuation of pulmonary inflammation, and reduction of free radical mediated injury. If these findings are confirmed in additional models, TH may become a candidate for clinical testing in critical care.
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PMID:Therapeutic hypercapnia reduces pulmonary and systemic injury following in vivo lung reperfusion. 1111 2

The mechanism of the immunosuppressive effects of glycine and its pathophysiological applications are discussed in this review. Glycine has been well characterized in spinal cord as an inhibitory neurotransmitter which activates a glycine-gated chloride channel (GlyR) expressed in postsynaptic membranes. Activation of the channel allows the influx of chloride, preventing depolarization of the plasma membrane and the potentiation of excitatory signals along the axon. Glycine has recently been shown to have similar inhibitory effects on several white blood cells, including hepatic and alveolar macrophages, neutrophils, and lymphocytes. Pharmacological analysis using a GlyR antagonist strychnine, chloride-free buffer, and radiolabeled chloride has provided convincing evidence to support the hypothesis that many white blood cells contain a glycine-gated chloride channel with properties similar to the spinal cord GlyR. Molecular analysis using reverse transcription-polymerase chain reaction and Western blotting has identified the mRNA and protein for the beta subunit of the GlyR in total RNA and purified membrane protein from rat Kupffer cells. Dietary glycine is protective in rat models against endotoxemia, liver ischemia-reperfusion, and liver transplantation, most likely by inactivating the Kupffer cell via this newly identified glycine-gated chloride channel. Glycine also prevents the growth of B 16 melanomas cell in vivo. Moreover, dietary glycine is protective in the kidney against cyclosporin A toxicity and ischemia-reperfusion injury. Glycine may be useful clinically for the treatment of sepsis, adult respiratory distress syndrome, arthritis, and other diseases with an inflammatory component.
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PMID:Glycine: a new anti-inflammatory immunonutrient. 1121 43


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