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Query: UMLS:C0012739 (disseminated intravascular coagulation)
 8,673 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reactive oxygen species (ROS) are constantly produced in human beings under normal circumstances. Antioxidant systems help defend the body against ROS but may be overwhelmed during periods of oxidative stress, which can cause lipid peroxidation, damage to DNA, and cell death. Critical illness, such as sepsis or adult respiratory distress syndrome, can drastically increase the production of ROS and lead to oxidative stress. Sources of oxidative stress during critical illness include activation of the phagocytic cells of the immune system (the respiratory burst), the production of nitric oxide by the vascular endothelium, the release of iron and copper ions and metalloproteins, and the vascular damage caused by ischemia reperfusion. Only indirect measurements of ROS are available, but the presence of oxidative stress in critical illness is supported by clinical studies. In general, serum antioxidant vitamin concentrations seem to decrease and measures of oxidative stress seem to increase in critically ill populations. Oxidative stress has been associated with sepsis, shock, a need for mechanical ventilation, organ dysfunction, acute respiratory distress syndrome, disseminated intravascular coagulation, surgery, and the presence of an acute-phase response. In addition, higher levels of oxidative stress seem to occur in patients with more notable injuries. Dietary supplementation with antioxidant vitamins seems to be the logical answer to decreasing serum antioxidant concentrations, but antioxidants may have adverse effects. The benefit of supplementing antioxidants in critically ill populations has not been shown and requires further study.
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PMID:Oxidative stress in critical care: is antioxidant supplementation beneficial? 973

Increased fibrinolytic activity and consumption coagulopathy are common consequences of liver transplantation and are a major cause of morbidity and death. In the present investigation the effects of hepatic ischemia on the coagulation mechanism were studied in the stump-tail monkey. The results suggest that, although fibrinolytic activity is induced by both major intraabdominal operations as well as one hour of hepatic ischemia, consumption coagulopathy, presumably due to intravascular clotting, is enhanced by the revascularization of the ischemic liver, possibly because of clotting within the liver itself. Release of a plasminogen activator from the liver due to hepatic ischemia alone is not demonstrated by these studies. It is believed that the first phase of intravascular coagulation after liver transplantation is due to release of tissue activators from vascular endothelium, which may be minimized by the action of ganglionic blocking agents. The severity of fibrinolysis in this stage is aggravated by the "liverless state," in which no clearance of plasminogen activators occurs. The degree of liver injury directly affects the ability of the liver to control hypercoagulability in the second phase. Thrombus formation which we believe occurs during this phase may be minimized by use of continuous controlled heparinization.
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PMID:Effects of hepatic ischemia on coagulation in primates. Application to liver transplantation. 1048 79

Disseminated intravascular coagulation frequently occurs after global ischemia and reperfusion due to cardiac arrest. The present study was performed to demonstrate the role of tissue factor for coagulation pathway activation, as well as to investigate the precise time course of tissue factor pathway inhibitor (TFPI) during and after cardiopulmonary resuscitation (CPR). Thirty-two of out-of-hospital cardiac arrest patients were classified into two groups, those who achieved return of spontaneous circulation (ROSC) (n=13) and those without ROSC (n=19). Ten normal healthy volunteers served as control subjects. Serial levels of tissue factor and TFPI were measured during and after cardiac arrest and CPR. In patients with ROSC, cardiac arrest and CPR led to persistent increases in the levels of tissue factor that peaked 6 hours after arrival at the Emergency Department. Tissue factor levels in patients without ROSC also showed marked elevations compared to those of the control subjects. In both groups, the levels of TFPI were significantly lower than those in the control subjects. However, we could not find differences in the levels of the two markers between the patients with ROSC and those without ROSC. In conclusion, we demonstrated persistent elevation of the tissue factor levels associated with low TFPI during and after CPR in patients with out-of-hospital cardiac arrest. These results indicate the activation of the extrinsic coagulation pathway without adequate TFPI generation, which may contribute to thrombin activation and fibrin formation after whole-body ischemia and reperfusion.
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PMID:Tissue factor and tissue factor pathway inhibitor levels during and after cardiopulmonary resuscitation. 1057 88

Disseminated intravascular coagulation (DIC) is a complex disorder, with pathophysiology being variable and highly dependent upon the triggering event(s), host response(s) and comorbid conditions. As a result of these complicated interactions, the clinical expression and laboratory findings are varied, thereby affecting the specifics of diagnosis and therapeutic approaches. The highly complex and variable pathophysiology of DIC often results in a lack of uniformity in clinical manifestations, a lack of consensus in the specific appropriate laboratory criteria of diagnosis, and a lack of specific therapeutic modalities. Indeed, recommendations for therapy are often difficult because the morbidity and survival is more dependent on the specific cause of DIC and because the generally used specific therapeutic approaches, which include for example heparin, low-molecular-weight-heparin antithrombin concentrate and protein C concentrate, have never been subjected to objective prospective randomized trials, except antithrombin concentrates. An analysis of the complex and varied pathophysiological events in DIC provide objective guidelines and criteria for the clinical diagnosis, the laboratory diagnosis, and the definition of severity. These data compounded by an understanding of complex and varied pathophysiology can be used for objective evaluation of therapeutic responses and results. DIC is an intermediary mechanism of disease usually seen in association with well-defined clinical disorders. The pathophysiology of DIC serves as an intermediary mechanism in many disease processes, which sometimes remain organ specific. This catastrophic syndrome spans all areas of medicine and presents a broad clinical spectrum that is confusing to many. Most physicians consider DIC to be a systemic hemorrhagic syndrome; however, this is only because hemorrhage is evident and often impressive. Less commonly appreciated is the profound microvascular thrombosis and sometimes, large vessel thrombosis. The hemorrhage is often simple to contend with in patients with fulminant DIC, but it is the small- and large-vessel thrombosis, with impairment in blood flow, ischemia, and associated end-organ damage that usually leads to irreversible morbidity and mortality. In conclusion, the pathophysiological mechanisms, clinical, and laboratory manifestations of DIC are complex in part due to interrelationships within the hemostasis system. Only by clearly understanding these extraordinarily complex pathophysiological interrelationships can the clinician and laboratory scientist appreciate the divergent and wide spectrum of often confusing clinical and laboratory findings in patients with DIC. Many therapeutic decisions to be made are controversial and lack validation. Nevertheless, newer antithrombotic agents, and agents which can block, blunt or modify cytokine activity and the activity of vasoactive substances appear to be of value. The complexity and variable degree of clinical expression suggests that therapy should be individualized depending on the nature of DIC, age, etiology of DIC, site and severity of hemorrhage or thrombosis and hemodynamics and other appropriate clinical parameters.
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PMID:Disseminated intravascular coagulation. clinical and pathophysiological mechanisms and manifestations. 1062 92

The activation of mast cells (MC) and liberation of their mediators can play an essential role in initiating and controlling inflammatory processes in the wall of the gastrointestinal tract (GIT) due to ischemia. The role of MC in changes induced by hemorrhagic shock (HS) remains unknown. Heparin provided by MC seems to inhibit local inflammation and prevent DIC. The aim of this study was to evaluate the morphometric changes and biochemical activity of MC in the stomach wall after 75 minutes of hemorrhagic shock. The MC in mucosal, submucosal, muscular and serosal compartments of the various stomach wall regions were examined in shocked rats and in the control group. Additionally, the contents of glycosaminoglycans (GAG), measured as uronic acids concentration, as well as anticoagulative activity in the stomach wall were assessed. HS resulted in an evident increase in the number of mast cells detected in the stomach mucosa and serosa, in slight alterations in number of MC in the submucosal and muscular layers, a significant increase in size and changes of the shape of the MC. The elevation of the width, area, and circular shape of MC in all layers were noted. No clear and significant differences between various stomach regions in MC numbers and MC sizes could be shown. No reaction of other inflammatory cells at this stage of shock was observed. Highly significant increases in GAG concentration, and anticoagulative activity in the stomach wall due to shock were noted. The morphometric and biochemical data may indicate MC activation, especially in mucosa and serosa. The shock-induced migration of MC settled in the stomach wall seems to be possible. The results suggest an essential role of MC reaction in the stomach wall in the early phase of hemorrhagic shock.
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PMID:Hemorrhagic shock activates mast cells in the rat stomach wall. 1098 43

Meningitis and meningococcal sepsis are emergency conditions associated with high mortality. The outcome is worsened by the onset of disseminated intravascular coagulation. This may present, particularly in children, with the clinical picture of purpura fulminans, characterized by extensive necrotic-hemorrhagic skin lesions, ischemia of the extremities and multiorgan failure. It has been observed that depletion of coagulation inhibitors, particularly protein C, plays a key role in the development of this severe complication. We describe the case of a woman who presented in the Emergency Room with signs of meningitis, drowsiness, hypotension and petechie. Bacterioscopic examination of the cerebrospinal fluid evidenced characteristic gram-negative diplococci. Laboratory data disclosed initial disseminated intravascular coagulation with low levels of proteins C and S. Following intravenous infusion of antibiotics, fluids and fresh frozen plasma, the patient's condition rapidly improved. However, multiple skin lesions appeared on her fingers, toes and heels. It is likely that the infusion of coagulation inhibitors contained in fresh frozen plasma, prevented evolution to full-blown purpura fulminans. The first choice treatment for purpura fulminans in meningococcal sepsis is infusion of protein C concentrate, which is not, however, currently available on the market.
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PMID:[Meningococcal meningitis in the adult complicated by cutaneous necrosis: description of a clinical case]. 1120 31

Normal endothelial cells express several membrane components with anticoagulant properties, which include: 1) tissue factor pathway inhibitors (TFPI), i.e. surface molecules able to accelerate the action of antithrombin (AT) on coagulation proteases; 2) thrombomodulin (TM), a thrombin binding surface protein able to inhibit thrombin activity; the complex TM-thrombin, also, activates protein C (PC); 3) endothelium derived factors such as nitric oxide and prostacyclin, which have antiadhesive properties and activate plasminogen. Exposure to inflammatory and/or septic stimuli can rapidly lead to a procoagulant response, activated by bacterial endotoxins, and to a decrease of endothelial anticoagulant membrane components. Activation of coagulation concomitant to impaired fibrinolysis is associated with fibrin deposition, tissue ischemia and necrosis. This review presents the results of different strategies aimed at reducing organ dysfunction and mortality in septic shock by modulating coagulation activity. In various animal models and in phase II clinical studies, the treatment with TFPI, AT and activated PC reduced organ dysfunction and mortality. Two phase III trials showed no efficacy of AT and a reduction of the relative risk of death with activated PC. In animal studies, supplementation with l-arginine and administration of perindopril were able to prevent septic shock-associated endothelial injury. A marked reduction of endothelial injury and improved survival of treated animals were also seen with antiglycoprotein IIb/IIIa which attenuated the role of monocytes in the disseminated intravascular coagulation process.
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PMID:Microthrombosis in sepsis. 1137 28

A case of recurrent nonocclusive mesenteric ischemia in a patient with isolated internal iliac artery aneurysm penetrating the sigmoid colon is described. On the day after the aneurysm and the sigmoid colon had been resected, the patient developed necrosis of the left hemicolon. Fourteen and nineteen days after left hemicolectomy, massive intestinal bleedings occurred, requiring ileectomy. On the basis of operative findings of good pulsation of visceral arterial branches; angiography showing patent mesenteric vessels with some spasms; and pathological findings suggesting mesenteric ischemia, these ischemic events were diagnosed as nonocclusive mesenteric ischemia. Low-output syndrome induced by massive intestinal bleeding and atrial fibrillation and sepsis were responsible for the establishment of the nonocclusive mesenteric ischemia. Development of disseminated intravascular coagulation and continuous administration of diuretics for acute renal failure seemed to have further perturbed the mesenteric circulation. The patient died of subsequent multiple organ failure 4 months after the first operation. We should pay more attention to nonocclusive mesenteric ischemia in patients with mesenteric ischemia, and strict circulatory management during the perioperative period is essential in these patients.
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PMID:Recurrent nonocclusive mesenteric ischemia after resection of iliac artery aneurysm. 1242 76

Although the literature on infections transmitted via transfused blood focuses on viruses, Yersinia enterocolitica can also cause severe infections in patients receiving transfusions. A 13-year-old patient developed severe sepsis after an autologous blood transfusion contaminated with Y. enterocolitica. The patient was an otherwise healthy female undergoing posterior spinal fusion for congenital scoliosis. Prior to surgery, the patient donated blood for perioperative and postoperative use. A few days before the donation, she had complained of abdominal pain and was experiencing mild diarrhea. The patient received four units of packed red blood cells (PRBCs) during the surgery. Intraoperatively, the patient developed fever up to 103.6 degrees F, became hypotensive requiring epinephrine and dopamine, and developed metabolic acidosis with serum bicarbonate concentration dropping to 16 mmol/l. The surgery team believed the patient was experiencing malignant hyperthermia and attempted to cool patient during the procedure. Postoperatively, the patient was transferred to the pediatric intensive care unit and treated for severe shock of unknown etiology. The patient further developed disseminated intravascular coagulation. The patient received supportive care and was started on ampicillin/sulbactam on postoperative day (POD) one which was changed to clindamycin, ciprofloxacin and tobramycin on POD two when blood cultures grew gram-negative bacilli. On POD three, cultures were identified as Y. enterocolitica and antibiotics were changed to tobramycin and cefotaxime based on susceptibility data. Sequelae of the shock included adult respiratory distress syndrome requiring intubation and a tracheostomy and multiple intracranial hemorrhagic infarcts with subsequent seizure disorder. Due to severe lower extremity ischemia, she required a bilateral below the knee amputation. The cultures of the snippets from the bags of blood transfused to the patient also grew Y. enterocolitica. This case illustrates the importance of considering transfusion related bacterial infections in patients receiving PRBCs. All patients in shock following any type of transfusion may require aggressive antibiotic therapy, until the diagnosis and etiology are known.
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PMID:Yersinia septic shock following an autologous transfusion in a pediatric patient. 1262 Feb 65

A girl with malrotation underwent a Ladd's operation at 35 days of age and later had an adhesiotomy at 115 days of age. After the adhesiotomy, she suffered from sepsis and subsequent disseminated intravascular coagulation (DIC). At 178 days of age, she developed an intestinal obstruction because of a rectosigmoid stricture probably caused by DIC-associated ischemia. As a result, an ileostomy was performed. At one year, 4 months of age, she underwent a resection of the proximal part of the rectosigmoid stricture and a reconstruction by means of a Z-shaped anastomosis. Based on our experience, Z-shaped anastomosis appears to be an excellent treatment not only for Hirschsprung's disease but also for benign rectosigmoid stricture.
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PMID:Z-shaped anastomosis for the treatment of a benign rectosigmoid stricture. 1267 78


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