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Query: UMLS:C0012739 (
disseminated intravascular coagulation
)
8,673
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Spontaneous ICH is an unusual and potentially disastrous event that may complicate primary and secondary hemostatic abnormalities. Among the primary abnormalities, deficiencies of coagulation factors I, VII, VIII, IX and XIII as well as von Willebrand factor have been clearly associated with ICH. Specific factor replacement or supportive management to normalize the hemostatic defect is indicated in each case. Among secondary alterations in hemostasis, thrombocytopenia, platelet function abnormalities, or factor consumption contribute to the risk of ICH in patients with
ITP
, TTP,
disseminated intravascular coagulation
, myeloproliferative or myelodysplastic disorders, and exposure to certain medications. The precise incidence of spontaneous hemorrhage among these disorders is unknown but low. Platelet transfusion and fibrinogen replacement are appropriate in specific cases; however, treatment of the underlying cause is usually required. The association of hemorrhage with antithrombotic agents in several settings is better defined. Cessation of the medication is required in each instance. Fibrinogen replacement may be required after the use of fibrinolytic agents. In all cases, an assessment of the precise hemostatic defect is recommended.
...
PMID:Hematologic causes of intracerebral hemorrhage and their treatment. 163 86
A new platelet aggregating protein (PAP) was purified from the plasma of a patient with acute thrombotic thrombocytopenic purpura (TTP) using A1 (OH)3 adsorption, PEG fractionation, DEAE cellulose chromatography, lentil lectin Sepharose 4B chromatography and gel filtration HPLC. The M. W. of this PAP was estimated to be 59,000. It induced the aggregation of washed platelets from normal subjects and the same patient after recovery. The antigenic material was present in 2 out of 6 other TTP patients but was absent in 7 normal subjects, two patients with
DIC
and two patients with
ITP
. The aggregation of washed platelets by PAP was concentration dependent and required energy metabolism, Ca2+ and fibrinogen. PAP was present in the plasma of a subset of TTP patients and was likely the cause of platelet thrombi in the microvessels in these patients.
...
PMID:[Purification and some properties of platelet aggregating protein (PAP) from the plasma of a patient with thrombotic thrombocytopenic purpura]. 259 93
The management of unexpected bleeding must be directed at the specific abnormality identified, as there is no universally effective and safe procoagulant product. Where practical, a purely pharmaceutical approach obviates the residual risks of exposure to plasma-derived products. Desmopressin is often effective in bleeding due to mild haemophilia A, Type I von Willebrand's disease and some platelet function disorders. Where replacement therapy is necessary, it should be as specific as possible, preferably using purified components singly or in combination. Recombinant proteins provide the greatest margin of safety, but it must be borne in mind that these are biologicals, and that they may contain human and animal plasma-derived proteins. Where specific replacement is unavailable or impractical, plasma or crudely fractionated plasma derivatives may be used. In the case of inhibitor antibodies to factor VIII, high dose human factor VIII or porcine factor VIII may be used. Where replacement therapy is impossible due to a high inhibitory titre, it may be necessary to bypass the specific haemostatic defect using activated prothrombin complex concentrates or recombinant activated factor VIIa. The latter product is being studied in patients with various disorders of platelet function, and in the more global haemostatic failure that accompanies end-stage liver disease. Ancillary methods are often of great value in securing haemostasis. These may be derived from pharmacological or biological sources, and their sites of action may be systemic or topical. Examples include antifibrinolytic lysine analogues, corticosteroids where inflammation accompanies bleeding, and the topical application of fibrin sealants or thrombin. Simple physical measures such as pressure, ice, or splinting are also valuable adjunctive measures. Finally, it must be emphasized that the ultimate control of bleeding often depends upon effective management of the inciting cause, such as eliminating the trigger for
DIC
, or suppressing the causative antibody of
ITP
. These principles will be presented using a practical algorithmic approach. The initial question when considering treatment should be whether or not the patient is acutely unstable. Instability may be due to one of two causes: the volume of blood loss leading to a compromised cardio-vascular status, or the site of the bleed. The relevance of the site of the bleed is independent of the volume of blood loss, so for example, a closed bleed into CNS will cause critical functional compromise even though the volume of bleeding may be minimal. Similarly bleeding into a compartment, such as into a forearm or a calf will cause critical functional compromise irrespective of the volume of bleeding.
...
PMID:Unexpected bleeding disorders: Algorithm for approach to therapy. 1125 56
The dramatic advances that have taken place in recent years in the care of sick and premature infants also have been matched by a similar increase in the use of blood transfusion therapy. Haematological features indicate that a newborn has a blood volume of 85-125 ml/kg the foetal haemoglobin is 60-85% and average Hb in full term infant is 18 gm/dl. By 2-3 months it falls to 11-12 g/dl the main cause of anemia are iron poor diet, weaning diets recurrent or chronic infections and hemolytic episodes in malarious areas. The red cells transfusions are usually top up transfusions, exchange transfusions, partial exchange transfusions. Top up- are for investigational losses and correction of mild degrees of anemias, upto to 5-15 ml/kg. They comprise 90% of all neonatal transfusions and are used in low birth babies in special care units for a maximum of 9-10 episodes. The walk in donor programs once popular are not much in vogue. The threshold for transfusion is 8-10 g/dl Hb for upto 5 weeks. Exchange transfusions are done for correction of anemia, removal of bilirubin, removal of antibodies and replacement of red cells. Ideally plasma reduced red cells that are not older than 5 days are used. It is prepared by removal of 120 ml of standard whole blood donation. The advantage of fresh cells is that hyperkalemia is avoided and good post transfusion survival acceptable red cell oxygen affinity. However it has to be screened for sickle cell disease and G6PD deficiency. Indications for exchange transfusion are kernicterus, neonatal hemolysis, G6PD deficiency, ARDS, neonatal sepsis,
DIC
and neonatal isoimmune thrombocytopaenia. Complications include over transfusion, perforation of major vessels, hypocalcaemia, citrate toxicity, hypothermia, hypoglycaemia, thrombocytopenia, necrotizing enterocolitis, GVHD, bacterial, viral infections. Partial exchange transfusions are done for symptomatic anemia, where Hb<10 g/dl, it is indicated in polycythemia and hyperviscosity syndromes. Exchange volume = Blood volume x (observed Hct-Desired HCt) divided observed Hct. Points to consider-there is weak expression of ABO antigens so particular care while grouping. Transfusing volumes should be 2-5 ml/kg/hour in paediatric bags of 50-100 ml with infusion devices. Platelet transfusion are indicated in neonatal throbocytopaenia, thrombocytopaenia due to sepsis,
DIC
, bacterial pathogens, CMV, TORCHS, Obstetric conditions such as pre eclampsia, intrauterine death abruption placenta birth injury hypoxia schock neonatal iso immune thrombocytopaenia and maternal
ITP
. Administration 1 RDE/pack per 2.5 kg single dose of fresh platelets less than 24hrs which contains 55 x 10(9) cells. This also contributes fresh plasma so is useful for coagulation defects also, though there is a risk of CMV and GVHD due to leucocyte contamination. Granulocyte concentrate; Gravity leucopheresis-1:8 ratio of 60 ml of 6% HES made to stand for 1hr.
...
PMID:Component therapy. 1451 88
