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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In a retrospective study 40 children were selected out of 53 cases of septicaemia with thrombocytopenia. They were divided into two coincidentally equally large groups of patients with consumption coagulopathy on the one side and patients with isolated thrombocytopenia without consumption coagulopathy on the other side. Both groups were of comparable age and sex distribution. Two-thirds of the children were under three months. For the differential diagnosis of both groups the activated partial thromboplastin time, the thrombotest, the factor V plasma concentration, the serum concentration of fibrin (fibrinogen) degradation products as well as control coagulation studies can be considered to have the greatest diagnostic value. The results of the study permit the following conclusions: 1. Platelet deficiency in sepsis does not prove the presence of consumption coagulopathy. 2. Consumption coagulopathy and isolated thrombocytopenia differ statistically significantly according to the bacteria cultured from the blood, the circulatory state and the pH of the blood. 3. The finding of thrombocytopenia in a patient with shock, acidosis and gramnegative septicaemia justify the suspicion of consumption coagulopathy.
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PMID:[Consumption coagulopathy and isolated platelet deficiency in childhood septicaemia]. 23 38

The diagnosis of defibrination syndrome in shock, sepsis and neonatal hypoxia is based, in addition to the clinical picture, upon a few parameters of the hemostatic system, which, in part as global tests, provide information about the course of coagulation. The parameters measured are partial thromboplastin time, thromboplastin time, plasma thrombin time, fibrinogen, thrombin-coagulase and reptilase times as well as platelet count. Normal values of these laboratory parameters were established for healthy newborns 1--5 days of age, and for healthy adults. It is suggested that especially partial thromboplastin time, the thrombin-coagulase and reptilase times, the latter influenced by fibrinolysis cleavage products, are representative for the tentative diagnosis of disseminated intravascular coagulation with fibrinolysis syndrome (DICFS). The platelet fall often lags 1--2 days behind the event. Moreover normal values for newborns, are markedly higher than those for older children or adults. In the presence of DICFS, a low-dose heparin therapy is immediately initiated. If completed defibrination is manifest, therapy is supplemented with urokinase and streptokinase, For DICFS with congenital sepsis, an exchange transfusion with heparinized fresh blood is the treatment of choice.
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PMID:[Diagnostic therapeutic problems of defibrination syndrome in shock, sepsis, and neonatal hypoxia (author's transl)]. 32 24

We have reviewed 53 cases of disseminated intravascular coagulation (DIC) in the newborn, including 29 cases that were confirmed at autopsy. Factors predisposing to DIC included maternal complications (60%), low Apgar scores (30%), hyaline membrane disease (62%), and sepsis (26%). Diagnostic criteria common to autopsy-proved cases included presence of fibrin degradation products, low factor V activity, a prolonged prothrombin time, and a prolonged partial thromboplastin time and/or thrombocytopenia. There appeared to be no difference in coagulation response or in mortality among patients treated with different therapeutic regimens. Survivors were older gestationally, had higher birth weights, and higher Apgar scores.
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PMID:Disseminated intravascular coagulation in the newborn. 76 May 11

This chapter has provided a review of available literature regarding alterations of hemostasis associated with CPB. The primary pathology of altered hemostasis during CPB appears to be two-fold: (1) a functional platelet defect of unclear etiology, which occurs in virtually all patients, and (2) a primary hyperfibino(geno)lytic defect which occurs in the majority of patients undergoing cardiopulmonary bypass. Significant thrombocytopenia does not appear to be a consistent problem, and is probably a function of perfusion technics; this may, however, be an important source of hemorrhage in some instances. Although hyperheparinemia, heparin rebound, and protamine excess have occasionally been incriminated as sources of hemorrhage during CPB, no well documented cases appear in the literature. Likewise, although DIC gained popularity in early reports of CPB hemorrahge, it appears that this syndrome rarely, if ever, arises as a consequence of CPB alone; it can be seen, however, in CPB patients who are provided a triggerin situation for DIC, such as shock, sepsis, or hemolytic transfusion reaction. It is likely that many reported alterations of hemostasis during CPB which were concluded to represent DIC actually were due to hyperfibino(geno)lysis. The key to prevention of CPB hemorrhage rests simply in obtaining an adequate preoperative workup. Of extreme importance is an adequate history with respect to bleeding tendencies in both patient and family; of equal importance is a careful history regarding antiplatelet drugs. A careful physical examination, searching for clues of a real or potential bleeding diathesis, also can often prevent catastrophic cases of CPB hemorrhage. Lastly, an adequate presurgical laboratory screen must be performed; in addition to the usual prothrombin time, partial thromboplastin time, and platelet count, a thrombin time and standardized template bleeding time must be added. The addition of these two simple modalities will insure against significant defects in fibrinogen, the fibrinolytic system, vascular function, and platelet function. When CPB hemorrhage occurs, simple laboratory screening will usually allow for a quick hemostasis evaluation. The parameters recommended in this review will distinguish between surgical and nonsurgical bleeding and should, therefore, allow for a quick decision regarding necessity for reexploration and the adequacy of hemostasis if reexploration is needed. In addition, this screen will distinguish between difficulties with heparin, protamine, and the fibrinolytic system. The vast majority of nonsurgical hemorrhages during CPB is due to a functional platlet defect, primary hyperfibrino(geno)lysis, or a combination of these. The quick administration of platelet concentrates, while awaiting laboratory evaluation, will control or significantly blunt most instances of CPB hemorrhage. If platelets fail to control bleeding, and reasonable laboratory evidence of primary hyperfibrino(geno)lysis is present, antifibrinolytics should then be used...
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PMID:Alterations of hemostasis associated with cardiopulmonary bypass: pathophysiology, prevention, diagnosis, and management. 79 78

A critically ill patient with disseminated intravascular coagulation (DIC) secondary to gram negative septicemia is reported. Low dose (5-10 mu/kg/h) heparin by intravenous infusion promptly inhibited intravascular coagulation, as reflected by laboratory studies. Fibrin monomer (FM) became undetectable, concentration of fibrin degradation products (FDP) fell, fibrinogen rose, and the activated partial thromboplastin time (PTT) shortened. Unintentional, temporary interruption of heparin resulted in transient return of abnormal laboratory values. The patient went on to make a complete recovery. Although the therapeutic contribution of heparin could not be proven in this patient, the laboratory data suggested that it was a valuable adjunct and in the dosage given unlikely to potentiate bleeding. The monitoring of heparin therapy in DIC by measurement of FDP, FM, and fibrinogen rather than clotting time is recommended.
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PMID:Case report: low-dose intravenous heparin in the treatment of disseminated intravascular coagulation. 91 96

The DIC syndrome is the most common cause of an abnormal hemorrhage tendency during pregnancy and the puerperium and reflects systemic activation of the coagulation cascade by circulating thromboplastic material, with secondary activation of the fibrinolytic system. Its presence in a pregnant patient almost invariably is evidence of an underlying obstetric disorder such as abruptio placentae, eclampsia, retention of a dead fetus, amniotic fluid embolism, placental retention or bacterial sepsis. Diagnosis of the DIC syndrome rests on the demonstration of reduced levels of fibrinogen and platelets, prolongation of the thrombin, prothrombin and partial thromboplastin times, and the presence of fibrin/fibrinogen degradation products (FDP) in the serum. Therapy consists of prompt removal of the source of procoagulant material, replacement of depleted clotting factors and, in some cases, anti-coagulation with heparin.
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PMID:Disseminated intravascular coagulation in pregnancy. 91 82

Serial measurements of coagulation activity, platelet counts, and platelet aggregation were done in patients with full-thickness burns involving 25% or more of body surface area to detect specific changes that might correlate with the onset of septicemia. Mean and maximal values for prothrombin time, partial thromboplastin time, thrombin time, activities of factor V and factor VIII, and concentrations of fibrinogen and fibrinogen-related antigens observed in the presence of bacterial septicemia did not differ significantly from those observed in the absence of septicemia. Mean platelet counts were significantly less with sepsis, but values in individual subjects were not indicative of the presence of septicemia. By contrast, platelet aggregation in response to adenosine diphosphate, epinephrine, and collagen always became severely abnormal with the onset of septicemia but not in the absence of sepsis.
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PMID:Platelet aggregation as a sign of septicemia in thermal injury. A prospective study. 94 30

The pathogenesis of experimental meningococcal septicemia and the efficacy of heparin sodium therapy were evaluated by inoculating rabbits intraperitoneally with type B meningococci in mucin. Half the rabbits died, and the respiratory distress and circulatory failure that occurred during the terminal phase of the disease were associated with diffuse pulmonary capillary and venular thrombosis and with renal glomerular fibrin deposition. Platelet and leukocyte counts and plasma fibrinogen levels decreased in all rabbits, and prothrombin and partial thromboplastin times were prolonged. Pretreatment with heparin sodium diminished intravascular fibrin deposition but failed to prevent the pulmonary microthrombi and did not either reduce the mortality or improve the survival time. We conclude that death in meningococcal septicemia is due to widespread thrombosis of the pulmonary microcirculation. The disease is complicated by diffuse intravascular coagulation, which can be controlled with heparin sodium but which is not immediately life-threatening.
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PMID:Experimental meningococcal septicemia. Effect of heparin therapy. 94 60

The effect of burn wound size on the activation of fibrinolysis, coagulation, and contact factors was analyzed in 60 thermal injury patients. Blood samples from 47 male patients and 13 female patients, (average age 37 years; range 1.5-70 years) were collected within the first 36 hours and at 5-7 days following injury. The patient population was categorized by percentage of burn (second degree and/or third degree): less than 20%, n = 22; 20%-40%, n = 18; greater than 40%, n = 20. The average percentage of burn was 32% (range, 4%-95%). The mechanism of injury was by flame (25), explosion and flame (19), scald (12), electric (3), or chemicals (1). An associated inhalation injury was present in 12 patients. The overall mortality rate was 13% (8). Sepsis or serious infection occurred in 23% (14) of the patients. On admission, 83% of the patients had normal prothrombin times (PT) and activated partial thromboplastin times (APTT). However, specific hemostatic variables showed marked changes. Admission hemostatic markers that correlated with the severity of injury were: tissue-plasminogen activator (tPA), plasminogen activator inhibitor (PAI), D-dimer (D-di), plasminogen (Plg), proteins C and S (PrC and PrS), antithrombin III (ATIII), thrombin-antithrombin complex (TAT), kallikrein (Kal:c), kinin (Kin), C1 esterase inhibitor (C1Inh), and factor VII clotting and antigen (FVII:c, FVII:ag). These data suggest that during the early course following burn injury, thrombogenicity is increased (TAT increases) because of a decrease in ATIII, PrC, and PrS; and fibrinolysis activation (D-di increases) occurs via an increase in tPA with a p value increase in PAI.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of burn wound size on hemostasis: a correlation of the hemostatic changes to the clinical state. 163 6

Endotoxemia remains the leading cause of death in horses, being intimately involved in the pathogenesis of gastrointestinal disorders that cause colic and neonatal foal septicemia. Endotoxins, normally present within the bowel, gain access to the blood across damaged intestinal mucosa, or endotoxemia occurs when gram negative organisms proliferate in tissues. Endotoxins are removed from the circulation by the mononuclear phagocyte system, and the response of mononuclear phagocytes to these lipopolysaccharides (LPS) play an important role in determining the severity of clinical disease. Macrophages become highly activated for enhanced secretory, phagocytic and cidal functions by LPS. Macrophage-derived cytokines are responsible for many of the pathophysiologic consequences of endotoxemia. The arachidonic acid metabolites, prostacyclin and thromboxane A2 likely mediate early hemodynamic dysfunction and the leukotrienes may potentiate tissue ischemia during endotoxemia. Interleukin 1 (IL-1) induces fever and is responsible for the inflammatory cascade, which constitutes the acute phase response. Tumor necrosis factor (TNF), an important proximal mediator of the effects of LPS, acts to initiate events and formation of other molecules that affect shock and tissue injury. Systemic administration of TNF produces most of the physiologic derangements that are associated with endotoxemia and antibodies that are directed against TNF significantly reduce LPS-induced mortality in experimental animals. In response to endotoxins, mononuclear phagocytes express thromboplastin-like procoagulant activity (PCA), which initiates microvascular thrombosis. Both IL-1 and TNF induce PCA expression, creating a positive feedback loop for LPS-induced coagulopathy. A macrophage-derived platelet activating factor contributes to coagulation dysfunction and further stimulates arachidonic acid metabolism. The ultimate consequences of endotoxemia are multiple system organ failure and death. The numerous feedback loops and intertwining cascades of mediators during endotoxemia defy simplistic methods of treatment. The optimal therapy likely involves methods to alter the generation of inflammatory mediators by mononuclear phagocytes.
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PMID:Endotoxemia in horses. A review of cellular and humoral mediators involved in its pathogenesis. 192 Feb 54


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