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

The indications for transfusing fresh-frozen plasma (FFP), cryoprecipitate and cryosupernatant plasma are very limited. When transfused they can have unpredictable adverse effects. The risks of transmitting infection are similar to those of other blood components unless a pathogen-reduced plasma (PRP) is used. Of particular concern are allergic reactions and anaphylaxis, transfusion-related acute lung injury, and haemolysis from transfused antibodies to blood group antigens, especially A and B. FFP is not indicated in disseminated intravascular coagulation without bleeding, is only recommended as a plasma exchange medium for thrombotic thrombocytopenic purpura (for which cryosupernatant is a possible alternative), should never be used to reverse warfarin anticoagulation in the absence of severe bleeding, and has only a very limited place in prophylaxis prior to liver biopsy. When used for surgical or traumatic bleeding, FFP and cryoprecipitate doses should be guided by coagulation studies, which may include near-patient testing. FFP is not indicated to reverse vitamin K deficiency for neonates or patients in intensive care units. PRP may be used as an alternative to FFP. In the UK, PRP from countries with a low bovine spongiform encephalopathy incidence is recommended by the Departments of Health for children born after 1 January 1996. Arrangements for limited supplies of single donor PRP of non-UK origin are expected to be completed in 2004. Batched pooled commercially prepared PRP from donors in the USA (Octaplas) is licensed and available in the UK. FFP must be thawed using a technique that avoids risk of bacterial contamination. Plastic packs containing any of these plasma products are brittle in the frozen state and must be handled with care.
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PMID:Guidelines for the use of fresh-frozen plasma, cryoprecipitate and cryosupernatant. 2730 32

Hematologic disorders are frequently encountered in the intensive care unit. Thrombocytopenia, often defined as a platelet count below 100,000/microL, is common in critically ill patients and may be associated with adverse outcomes. A systematic evaluation of clinical and laboratory findings is necessary to ascertain the cause of the thrombocytopenia and to determine the correct therapy. Recognition of heparin-induced thrombocytopenia (HIT) is particularly important, given the risk of thrombosis associated with this condition. Prompt cessation of all heparin products is required, and anticoagulation with a direct thrombin inhibitor is recommended if HIT is strongly suspected. Coagulopathies are also common in the critically ill, and are often due to vitamin K deficiency or disseminated intravascular coagulation (DIC). A careful history and interpretation of clotting studies are useful in defining the coagulation defect. Advances in understanding the pathogenesis of DIC have generated new treatment approaches, such as the use of recombinant activated protein C. Recombinant factor VIIa (rFVIIa) is a novel drug approved for use in patients with congenital hemophilia and inhibitors. Although its use as a hemostatic agent is currently being evaluated in several off-label scenarios, including trauma, intracerebral hemorrhage, and liver disease, there are limited data to guide therapy in these conditions.
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PMID:Hematologic disorders in critically ill patients. 1679 61

Skin necrosis caused by heparins is a rare complication. We report a case of a 71-yr-old white woman who developed painful diffuse skin lesions, most probably related to enoxaparin treatment. Other causes of skin necrosis, including heparin induced thrombocytopenia, disseminated intravascular coagulation, protein C/protein S deficiencies, anti-phospholipid antibodies, and vitamin K deficiency were less likely in this case. The concomitant combined thrombophilia possibly aggravated the patient's clinical presentation.
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PMID:A fatal case of enoxaparin induced skin necrosis and thrombophilia. 1685 10

Superwarfarins are anticoagulant rodenticides similar to warfarin, but which have various substituted phenyl groups replacing the terminal methyl group, resulting in a fat-soluble, long-acting anticoagulant that is nearly 100 times more potent than the parent compound. Since their development, many accidental and intentional cases of consumption have been reported. We describe two cases of consumption, one related to unknown etiology, and the other related to utilization of the superwarfarin to potentiate a drug of abuse. The clinical manifestations including bleeding symptoms and abnormal coagulation assays are discussed. The differential diagnosis is quite broad, and includes all causes of vitamin K deficiency, factor deficiency or inhibitor, disseminated intravascular coagulation (DIC), and liver disease. Differentiating superwarfarin ingestion from the other causes can be quite difficult, but extremely important, as management requires prolonged administration of vitamin K. Other treatment options are discussed as well including, fresh frozen plasma (FFP), and recombinant factor VIIa. Finally, the significance of "lacing" drugs of abuse with superwarfarin to potentiate their effect is discussed, as well as the complications that could develop from such a habit.
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PMID:Superwarfarin poisoning: a report of two cases and review of the literature. 1702 46

Persons with hematologic malignancies bleed for a variety of reasons, including alterations in platelet function and numbers, clotting factor deficiencies, circulating anticoagulants, and defects in vascular integrity. The management of bleeding begins with a full characterization of the hemostatic defect. Vitamin K deficiency always should be considered and excluded by clinical history and laboratory tests. Localized bleeding is treated by packing, topical hemostatic agents, dressings, vessel ligation, laser beam coagulation, or embolization. Platelet transfusions are administered for hemorrhage secondary to severe platelet dysfunction or thrombocytopenia, but usually are not indicated if there is no bleeding, even though platelets may be as low as 10,000/microL. Bleeding due to thrombocytopenia that is refractory to random-donor platelets may respond to cross-matched compatible platelets, or to recombinant factor VIIa (rFVIIa). Fresh frozen plasma is indicated infrequently; bleeding due to coagulopathies is better managed with cryoprecipitate if fibrinogen is low, or with clotting factor concentrates appropriate for the specific clotting factors found to be deficient. rFVIIa or activated prothrombin complex concentrate usually controls hemorrhage due to autoantibodies directed against factor VIII, and acquired von Willebrand's disease may be responsive to desmopressin or intravenous gamma globulin infusion. Antifibrinolytic agents often enhance other hemostatic therapies, but should be withheld if there is genitourinary bleeding or evidence of disseminated intravascular coagulation. Finally, plasmapheresis and immunoadsorption to remove paraproteins may be helpful when other measures fail to curb bleeding.
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PMID:Management of bleeding complications of hematologic malignancies. 1752

The protein C pathway has an important function in regulating and modulating blood coagulation and ensuring patency of the microcirculation. Protein C deficiency leads to macro- or microvascular thrombosis. Hereditary severe protein C deficiency is a life-threatening state with neonatal purpura fulminans. Patients with heterozygous protein C deficiency have an increased risk for thromboembolic events or coumarin-induced skin necrosis. Secondary protein C deficiency occurs during disseminated intravascular coagulation (DIC), sepsis (especially meningococcal sepsis with purpura fulminans), liver failure and vitamin K deficiency. Replacement with protein C concentrates is an established treatment for congenital protein C deficiency. The high-purity, plasma-derived protein C concentrate Ceprotin (Baxter AG, Vienna, Austria) is approved for this indication, but its use in acquired deficiency states is not approved. Several case series demonstrated beneficial effects in infectious purpura fulminans and DIC, but no controlled studies for these indications exist. Protein C concentrate may therefore be given off-label in such cases. Protein C concentrate has an excellent safety profile: no drug interactions, overdose or bloodborne infections, bleeding or prothrombotic complications have been observed. As with all protein preparations, a potential risk of hypersensitivity reactions exists.
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PMID:Human protein C concentrates for replacement therapy in congenital and acquired protein C deficiency. 1859 97

Professor Eberhard F. Mammen greatly contributed to the understanding of the relationship between hemostatic abnormalities and liver diseases. The physiology of the hemostatic system is closely linked to liver function because the liver parenchymal cells produce most of the factors of the clotting and fibrinolytic systems. Acute or chronic hepatocellular diseases and hepatic failure including liver cirrhosis, vitamin K deficiency, liver surgery including liver transplantation, and sclerotherapy of bleeding esophageal varices, which were classified by Prof. Mammen, show various hemostatic abnormalities in the coagulation system, fibrinolytic system, platelets, and the reticuloendothelial system. Hemostatic abnormalities in patients with hepatic failure or in those that have undergone liver surgery are similar to those in disseminated intravascular coagulation. Prof. Mammen also contributed to the study of vitamin K-dependent clotting factors, antithrombin, and hemostatic molecular markers. Partly based on this work, the prothrombin time-international normalized ratio, several hemostatic molecular markers, and antithrombin therapy have been recently developed for the diagnosis and treatment of thrombosis.
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PMID:Hemostatic abnormalities and liver diseases. 1921 15

Topical hemostats, fibrin sealants, and surgical adhesives are regularly used in a variety of surgical procedures involving multiple disciplines. Generally, these adjuncts to surgical hemostasis are valuable means for improving wound visualization, reducing blood loss or adding tissue adherence; however, some of these agents are responsible for under-recognized adverse reactions and outcomes. Bovine thrombin, for example, is a topical hemostat with a long history of clinical application that is widely used alone or in combination with other hemostatic agents. Hematologists and coagulation experts are aware that these agents can lead to development of an immune-mediated coagulopathy (IMC). A paucity of data on the incidence of IMC contributes to under-recognition and leaves many surgeons unaware that this clinical entity, originating from normal immune responses to foreign antigen exposure, requires enhanced post-operative vigilance and judicious clinical judgment to achieve best outcomes.Postoperative bleeding may result from issues such as loosened ties or clips or the occurrence of a coagulopathy due to hemodilution, vitamin K deficiency, disseminated intravascular coagulation (DIC) or post-transfusion, post-shock coagulopathic states. Other causes, such as liver disease, may be ruled out by a careful patient history and common pre-operative liver function tests. Less common are coagulopathies secondary to pathologic immune responses. Such coagulopathies include those that may result from inherent patient problems such as patients with an immune dysfunction related to systemic lupus erythrematosus (SLE) or lymphoma that can invoke antibodies against native coagulation factors. Medical interventions may also provoke antibody formation in the form of self-directed anti-coagulation factor antibodies, that result in problematic bleeding; it is these iatrogenic post-operative coagulopathies, including those associated with bovine thrombin exposure and its clinical context, that this panel was convened to address.The RETACC panel's goal was to attain a logical consensus by reviewing the scientific evidence surrounding IMC and to make recommendations for the clinical recognition, diagnosis and evaluation, and clinical management of these complications. In light of the under-recognition and under-reporting of IMC, and given the associated morbidity, utilization of health care resources, and potential economic impact to hospitals, the panel engaged in a detailed review of peer-reviewed reports of bovine thrombin associated IMC. From that clinical knowledge base, recommendations were developed to guide clinicians in the recognition, diagnosis, and management of this challenging condition.
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PMID:Building an immune-mediated coagulopathy consensus: early recognition and evaluation to enhance post-surgical patient safety. 1946 80

Blood dose not normally coagulate in the blood vessels covered with endothelial cells, because these cells contain some substances responsible for antithrombotic action such as thrombomodulin, heparin-like substance, prostacyclin, nitric oxide and tissue plasminogen activator. Most important role of blood coagulation is hemostasis. Blood can coagulate in two ways: intrinsic coagulation pathway and extrinsic coagulation pathway that is activated by negatively charged substances and FVIIa-tissue-factor (TF) complex, respectively. Prothrombin time(PT) can represent extrinsic pathway, while activated partial thromboplastin time (APTT) can represent intrinsic pathway. PT is prolonged in such diseases as vitamin K deficiency, hepatic failure and warfarin intake, while APTT is prolonged such diseases as hemophilia A & B, von Willebrand disease and lupus anticoagulant. Cross mixing test is very useful to assess prolonged clotting time. FDP means fibrin/fibrinogen degradation products and D-dimer is the smallest products of fibrin degradation. These markers are often used to diagnose disseminated intravascular coagulation (DIC) and deep vein thrombosis (DVT). Thrombin-antithrombin complex (TAT) and plasmin-alpha2 plasmin inhibitor (PIC) can be used to evaluate the extent of coagulation and fibrinolysis activation, respectively. These two markers is essential for classify the pathophysiology of DIC: DIC with suppressed fibrinolysis, enhanced fibrinolysis or balanced fibrinolysis. In conclusion, exact interpretation of hemostatic and fibrinolytic markers is one of the most important abilities in clinical situation.
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PMID:[Interpretation of hemostatic and fibrinolytic markers]. 2218 80

Bleeding in patients in pediatric intensive care units is associated with an increased risk of mortality. Fortunately, most patients with an abnormal coagulation profile do not bleed because this is generally secondary to liver disease or dietary-induced vitamin K deficiency. When the laboratory markers of coagulopathy are the result of disseminated intravascular coagulation, bleeding is common and the risk of mortality extreme. Although interventions directed toward correcting the abnormal coagulation test results are generally initiated, they are also generally either not warranted or not fully successful.
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PMID:Coagulopathies in the PICU: DIC and liver disease. 2353 78


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