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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent work suggests that oxygen radicals may be important mediators of damage in a wide variety of pathologic conditions. In this review we consider the evidence supporting the participation of oxygen radicals in the adult respiratory distress syndrome, in ischemia reperfusion injury in the myocardium, and in cerebral vascular injury in acute hypertension and traumatic brain injury. In the adult respiratory distress syndrome there is active sequestration of polymorphonuclear neutrophils in the pulmonary vascular system. There is evidence that activation of these neutrophils results in the production of oxygen radicals which injure the capillary membrane and increase permeability, leading to progressive hypoxia and decreased lung compliance which are hallmarks of the syndrome. In acute arterial hypertension or experimental brain injury oxygen radicals are important mediators of vascular damage. The metabolism of arachidonic acid is the source of oxygen free radical production in these conditions. In myocardial ischemia and reperfusion injury, the ischemic myocyte is "primed" for free radical production. With reperfusion and reintroduction of molecular oxygen there is a burst of oxygen radical production resulting in extensive tissue destruction. Myocardial ischemia--reperfusion injury shares in common with the other two syndromes activation of the arachidonic acid cascade and acute inflammation. Thus it would appear that the generation of toxic oxygen species may represent a final common pathway of tissue destruction in several pathophysiologic states.
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PMID:Oxygen radicals in the adult respiratory distress syndrome, in myocardial ischemia and reperfusion injury, and in cerebral vascular damage. 298 21

Plasmatic immunoreactive trypsin (IRT), thromboxane and trypsin-like enzymatic activity were measured in 117 patients at risk of developing adult respiratory distress syndrome (ARDS) (53 multiple injury, 30 abdominal surgery, 17 acute pancreatitis, 12 burnt and 5 disseminated intravascular coagulation patients). 69 of these patients developed ARDS. Immunoreactive trypsin and thromboxane were measured by radio-immuno-assay and trypsin-like enzymatic activity by spectrophotometry, using a specific chromogenic substrate. Mean IRT value was 675 ng/ml in ARDS and 265 ng/ml in non ARDS patients (p less than 0.05). Mean IRT value was 685 ng/ml in septic and 170 ng/ml in non septic patients (p less than 0.01). An abnormal trypsin-like enzymatic activity was measured in 26 ARDS patients. In 60 patients (37 ARDS and 23 non ARDS), thromboxane appeared in plasma simultaneously or about 24 hours after the beginning of IRT release. The importance of thromboxane release parallels the intensity of IRT. Originating from pancreas, trypsin can appear in plasma either by absorption from gastrointestinal tract or after pancreatic ischemia.
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PMID:Trypsin-like activity and thromboxane release in adult respiratory distress syndrome. 353 5

Numerous interventions have been used to protect organ systems and cellular viability from the lethal injury accompanying hypoperfusion and ischemia. Some measures have been directed toward improving perfusion, while others have attempted to enhance the metabolic processes. Our work has focused for the most part on augmenting the anaerobic carbohydrate utilization in ischemic and hypoperfused tissues with fructose-1,6-diphosphate (FDP). Such an approach is based on the premise that exogenous FDP will restore the activity of glycolysis, which has been inhibited by acidosis, by intervening in the Embden-Meyerhoff pathway both as a metabolic regulator and as a high-energy substrate. We have tested this hypothesis in more than 1,000 animals subjected to shock or regional ischemia, and the results appear to confirm our presumption. In myocardial infarction, FDP improves hemodynamic parameters, attenuates ECG-proven ischemic injury and dysrhythmias, prevents ATP and creatine phosphate depletion from ischemic myocardium, reduces infarct size, and increases survival. In hemorrhagic, traumatic, and endotoxin shock, FDP improves hemodynamics, attenuates organ injury, and increases survival. Recently we demonstrated that FDP attenuates the reperfusion ischemic tissue injury by inhibiting the generation of oxygen free radicals by neutrophils. In normal volunteers, this agent increases carbohydrate utilization, while administration of a like amount of glucose produces no effect. In patients with myocardial infarction, FDP appears to have the same effect as that observed in the animal model. When this agent is administered to patients in traumatic, hemorrhagic, or septic shock, hemodynamic and pulmonary function are significantly improved. In patients with adult respiratory distress syndrome, similar beneficial effects have been observed with FDP administration.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hemodynamics and metabolic effects of fructose 1-6 diphosphate in ischemia and shock--experimental and clinical observations. 377 20

Dopamine, ethanol, and mannitol were investigated to determine if they could increase pulmonary blood flow and oxygen delivery without significantly increasing intrapulmonary shunt. These drugs were studied in adult patients with respiratory distress following trauma, operation, or sepsis. Intravascular pressure, cardiac output, oxygen consumption and delivery, and limb blood flow and peripheral oxygen delivery were measured in all patients. Hypotensive patients received dopamine in incremental doses of 2 mu g/kg/min until either mean arterial pressure increased 15 mm Hg or heart rate increased by more than 15 beats/min. Ethanol was given as 10% ethanol in 5% dextrose at 2 ml/kg/hr. Mannitol was given as 25 gm of a 25% solution in a single bolus followed by infusion of 8 to 25 gm of 20% solution (mean 10 +/- 2 gm) as a continuous intravenous drip over 1 hour. No drug produced a significant change in intrapulmonary shunt. Ethanol produced significant (p less than 0.05) increases in cardiac index, heart rate, oxygen consumption, and oxygen delivery. Dopamine significantly decreased pulmonary vascular resistance while increasing systemic blood pressure. Visceral blood flow apparently increased while the peripheral vascular response to ischemia remained intact. Mannitol increased oxygen delivery and consumption in both the total body and limb. Thus in patients with adult respiratory distress syndrome (ARDS), increases in pulmonary blood flow can be achieved with several distinct pharmacologic agents without significant increases in intrapulmonary shunt. These increases in flow are generally accompanied by increases in oxygen delivery without increased pulmonary vascular resistance.
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PMID:Effects of dopamine, ethanol, and mannitol on cardiopulmonary function in patients with adult respiratory distress syndrome. 678 9

The initiating factor in ARDS is a matter of controversy. Some investigators relate ARDS development to diffuse pulmonary microemboli after stress ranging from sepsis to non-thoracic and thoracic trauma. Others indicate hyperoxic exposure as the causative agent. This investigation looked for a common factor in ischemia and hyperoxic exposure in lung which could cause the genesis of ARDS. Studies of oxidative phosphorylation, succinate dehydrogenase activity and ATP level were performed on ischemic and 100% O2 exposed lung. Results in both showed decreased respiration rate below the basal rate, decreased SDH activity, followed by marked decrease in ATP levels in pulmonary tissue. Decrease in respiration (ATP production) capacity and ATP levels in ischemic lung were such that normal cell functions could not be sustained if returned to normal circulation. Hyperbaric O2 therapy would subsequently decrease energy metabolism in regions of normal circulation and in previously ischemic regions.
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PMID:A common denominator in the etiology of adult respiratory distress syndrome. 743 54

Adult respiratory distress syndrome (ARDS) often occurs in response to sepsis, shock, or ischemia/reperfusion (I/R) of a remote organ and is a frequent cause of mortality in the ICU patient. Pulmonary vascular resistance (PVR) increases during ARDS, yet direct observations of the pulmonary microcirculation are needed to characterize the vascular response. The purpose of this study was to quantitate the changes in hemodynamic variables, subpleural arteriolar diameters (AD), and alveolar cross-sectional areas (ACSA) during intestinal I/R-induced lung injury in rats, using a new method of in vivo videomicroscopy. Sprague-Dawley rats were anesthetized and cannulated, and superior mesenteric arteries were looped. A thoracotomy was performed with animals ventilated with air with 1 cm PEEP. Hemodynamic and videomicroscopic data were obtained before and during 45 min of SMA occlusion and after reperfusion, up to 120 min. Maximal vessel dilation was measured using topical 10(-5) M nitroprusside. The ability of vessels to constrict was confirmed by applying topical 10(-6) M endothelin-1. Intestinal I/R produced decreases in arterial pH, mean arterial pressure, and cardiac output. Despite these alterations, subpleural AD remained maximally dilated. Arterioles maintained the ability to constrict as demonstrated by the response to topical endothelin-1. ACSA did not change, indicating a uniform inflation of the lung. Using a unique method of in vivo pulmonary videomicroscopy, we have shown that AD do not change following 120 min of intestinal I/R, despite systemic hemodynamic instability. It appears that pulmonary arteriolar vasoconstriction does not contribute to increased PVR during the early phase of lung injury.
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PMID:Pulmonary subpleural arteriolar diameters during intestinal ischemia/reperfusion. 763 Jan 36

The study deals with an animal model for the problems of surgical intensive care patients. Following repeated applications of E. coli endotoxin WO 111:B4 under standard conditions, specific hemodynamic and biochemical (TNF, TXA2, PGI2, IL-6, PAF) and morphological (endothelium of the lung) alterations were detected. ARDS patterns induced by the sepsis were analyzed by high-frequency measurement of pressure and flow (385 measurements per breathing cycle). The role of the intestine in sepsis was investigated by ion-selective monitoring of surface potassium activity comparing mucosa and serosa. Every injection of endotoxin was followed by a selective increase of the potassium activity revealing relative ischemia induced by the endotoxin. The profile of the potassium levels on the surface correlates both with the cardiac output and with the prostacyclin levels. The continuous narrowing of the difference between mucosa and serosa, potassium during the period of investigation can be regarded as evidence for pathologic change in permeability fostering the septic course.
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PMID:[Septic shock and multiple organ failure in surgical intensive care. An animal experiment model on the analysis of pulmonary and intestinal dysfunction]. 769 Jan 6

Infection and rejection remain the greatest threats to the survival of pulmonary allograft recipients. Furthermore, a relationship may exist between these events, because the occurrence of one may predispose to the other. By using multivariate analysis for repeated events, we analyzed the risk factors for bacterial, fungal, and viral infection, grade II or greater acute rejection, and death among 239 lung transplant recipients who received 250 allografts between January 1988 and September 1993. A total of 90 deaths, 491 episodes of acute rejection, and 542 infectious episodes occurred during a follow-up of 6 to 71 months. The hazard or risk patterns of death, infection, and rejection each followed an extremely high risk during the first 100 days after transplantation, a second modest risk period at 800 to 1200 days, and a lower constant risk. Infection and graft failure manifested by diffuse alveolar damage were the major causes of early death (< 100 days), whereas infection and chronic rejection were primary causes of later death after pulmonary transplantation. By multivariate analysis, cytomegalovirus mismatching risk for primary infection was the most significant risk factor for death, rejection, and infection. Absence of cytomegalovirus prophylaxis was also a risk factor for early and late death and late infection. Survival of recipients who received cytomegalovirus prophylaxis was significantly improved. Immunosuppression based on cyclosporine versus FK 506 was a risk factor for late death and late infection. Graft failure manifested by diffuse alveolar damage/adult respiratory distress syndrome was a significant risk for death late after transplantation. These data suggest the following: (1) The hazard for death, infection, and rejection after pulmonary transplantation appears biphasic; (2) lower survival is associated with ischemia-reperfusion lung injury represented by diffuse alveolar damage/adult respiratory distress syndrome; (3) cytomegalovirus mismatch, absence of cytomegalovirus prophylaxis, and development of cytomegalovirus disease are significant threats for death, rejection, and infection after pulmonary transplantation; (4) prevention of cytomegalovirus disease should improve survival by decreasing the prevalence of infection and rejection.
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PMID:Analysis of time-dependent risks for infection, rejection, and death after pulmonary transplantation. 781 7

Acute lung injury as a remote sequela of severe lower torso ischemia-reperfusion has been demonstrated experimentally, in a process involving leukosequestration and generation of the arachidonate derivatives thromboxane and leukotriene B4. However, contemporary clinical reports have been limited to development of transient, subclinical "reperfusion pulmonary edema" several hours after declamping in patients undergoing elective abdominal aortic aneurysm repair. This report refocuses attention on the clinical syndrome of severe, acute deterioration in pulmonary function occurring several hours after restoration of perfusion to an ischemic lower torso in two patients. The lung injury is characterized by progressive hypoxemia, pulmonary hypertension, decreased lung compliance, and non-hydrostatic pulmonary edema, consistent with adult respiratory distress syndrome (ARDS). This report reinforces the concept that humoral mediators generated at reflow may induce end-organ injury at a site remote from the focus of ischemia-reperfusion, and that the lung is a target organ.
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PMID:Pulmonary failure following lower torso ischemia: clinical evidence for a remote effect of reperfusion injury. 789 94

Early epidemiologic studies concluded that infection with systemic sepsis was the common pathway for the development of ARDS and eventual MOF. As a consequence, research investigation from 1977 to 1987 focused on later clinical events (e.g., immunosuppression, persistent hypercatabolism, and bacterial translocation). Now, it is believed that an initial massive traumatic insult can create severe SIRS independent of infection (one-hit model). Alternatively, a less severe traumatic insult can create an inflammatory environment (i.e., primes the host) such that a later, otherwise innocuous, secondary inflammatory insult precipitates severe SIRS (two-hit model). As a result of these newer inflammatory models, research interest during the last 5 years has shifted to investigating earlier clinical events (e.g., unrecognized flow-dependent oxygen consumption, ischemia/reperfusion, and priming/activation of the inflammatory response).
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PMID:Evolving concepts in the pathogenesis of postinjury multiple organ failure. 789 97


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