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Query: UMLS:C0020672 (hypothermia)
 17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Blood has particular rheological properties which partly condition its flow, especially in capillary vessels, and its ability to deliver oxygen. It is not subject to gravitation, pseudoplastic, thixotropic and visco-elastic. Blood viscosity depends upon macroscopic factors, such as erythrocyte aggregation and deformability. Hyperviscosity is observed in cases of increased haematocrit (polycythaemia and relative polycythaemia), increased serum proteins and changes in protein balance (e.g. rise in fibrinogen and immunoglobulins, fall in albumin) as seen in inflammation and dysglobulinaemia, drop in temperature (hypothermia), increased erythrocyte aggregation (shock, fat embolism) or imparied deformability due to various acquired or inherited disorders of red cell membrane or cytoplasma (e.g. sickle cell anaemia, renal failure, hyperlipoproteinaemias, thrombosis, diabetes). The various factors may be combined, as in diabetes. Conversely, hypoviscosity may result from decreased haematocrite, fall in blood proteins and fibrinogen, or hyperthermia. Hyperviscosity can be corrected by acting on its various constituents. Treatments include haemodilution, plasmapheresis, anti-aggregants and drugs improving red cell deformability.
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PMID:[Blood viscosity. Measurement and applications (hyper--and hypoviscosity syndromes) (author's transl)]. 723 52

In 1,800 patients undergoing cardiac surgery over a 2-year period, 11 incidents of abnormal inlet pressure elevations occurred before the membrane oxygenators. In 3 patients, the oxygenators had to be changed during cardiopulmonary bypass. This complication was found to be caused by fibrin formation possibly secondary to precipitation of fibrinogen with other coagulation factors in the heat exchangers of the oxygenators during the cooling phase. Large amounts of fibrin were demonstrated in the heat exchanger of the oxygenators. After careful washing of the apparatus, plasmin was added and fibrin was detected by measuring D-dimer levels. In heat exchangers from uneventful operations, only trace amounts of fibrin were found. Because there were no cold agglutinins demonstrated in the patients before surgery, cryoprecipitation studies were performed soon after surgery. When the patients' plasma samples were studied at different temperatures, from 37 degrees C down to 3 degrees C, cryoprecipitates or a gel (in 1 patient only) were formed. This indicated that there might be something abnormal with regard to fibrinogen-fibrin formation. The study patients were therefore investigated after the acute phase of the operation had ended for various coagulation factors, as well as for fibrin gel network characteristics. The results were compared with those of a control group (n = 10) with uneventful operations. There were no differences between the groups with regard to levels of coagulation factors VII and VIII and von Willebrand factor, although they were increased in both groups. The mean levels of coagulation inhibitors, antithrombin and Protein S, were slightly lower in the study patients. All of these patients had a highly pathologic, ie, tight fibrin gel network, except for the patient in whose sample a gel formed, despite being treated with aspirin or oral anticoagulants. The network was also tighter in some of the controls (v middle-aged reference individuals), although it was significantly tighter in the patients. It is concluded that some individuals who have an increased tendency to form tighter fibrin gel networks might be at increased risk for a severe complication during cardiac surgery performed under hypothermia.
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PMID:Pathologic fibrin formation and cold-induced clotting of membrane oxygenators during cardiopulmonary bypass. 771 53

Thrombolysis with tissue plasminogen activator (tPA) and hypothermia are two potential treatment modalities for acute ischemic stroke. Many investigators are studying these modalities both in the laboratory and in clinical trials. Because these modalities each appear to show benefit in animal models, there is considerable interest in studying combined therapy with both thrombolysis and hypothermia. However, it is known that alterations in the coagulation system can occur with decreased body temperature. Clinicians have frequently observed bleeding problems when patients are subjected to hypothermia for a variety of reasons. Hypothermia induced coagulopathy has been attributed to a variety of factors. Hypothermia can cause platelet dysfunction, inhibition of clotting factors, increased fibrinolysis and endogenous production of a heparin-like factor. Groups who studied fibrinolysis and temperature, however, found the opposite to be the case. Clot lysis studies with streptokinase showed increased fibrinolysis at higher temperatures. Data by Mumme suggested that the peak fibrinolytic activity of streptokinase was at 40 degrees C, but at 43 degrees C fibrinolytic activity was decreased. Rijken et al studied plasminogen activation with tissue plasminogen activator (tPA), urokinase and streptokinase at extremely low temperatures. They found less plasminogen activation and fibrinogen degradation at 25 degrees C compared to 37 degrees C, but negligible differences at 10 degrees C, 0 degrees C and -8 degrees C. To our knowledge, there is no data studying the fibrinolytic activity of tissue plasminogen activator (tPA) at temperature ranges between 25-37 degrees C which is the range of temperatures used clinically for therapeutic purposes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Thrombolysis with tissue plasminogen activator (tPA) is temperature dependent. 777 62

Current hematologic approaches to minimize postoperative bleeding have focused principally on antifibrinolytic agents. To explore whether a need might exist to promote clot stabilization independent of steps that might be taken to prevent lysis, we followed levels of the functional A-chain of factor XIII (fibrin stabilizing factor) immunologically in 19 patients undergoing coronary artery bypass grafting. The levels of factor XIIIA together with alterations in fibrinogen were followed at five stages of operation: (1) initial catheter placement (control), (2) heparinization, (3) initiation of cardiopulmonary bypass, (4) discontinuation of cardiopulmonary bypass, and (5) heparin neutralization with protamine sulfate. Significant (p < 0.05) inverse correlations were observed between postoperative chest-tube drainage volumes and levels of XIIIA at stages 1 through 3, and borderline associations (p < 0.1) were observed for stages 4 and 5. Pronounced losses of factor XIIIA accompanied initiation of cardiopulmonary bypass, when levels fell to 43% +/- 12% (standard deviation) of the control value, significantly below the 59% +/- 9% of the control value expected from hemodilution. By comparison, fibrinogen concentrations fell only to the extent attributable to hemodilution, unaccompanied by substantial degradation as indicated by electrophoretic, functional, and immunologic assays. There was a reversible heparin-induced precipitation of fibrin complexes and fibrinogen dimers from the blood on initiation of hypothermia, but these components returned to the circulation on restoration of normothermia. This precipitation was unrelated to losses of factor XIIIA. The findings warrant inference that XIIIA supplementation in deficient states should be considered as an adjunct to other therapies for postoperative bleeding.
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PMID:Low factor XIIIA levels are associated with increased blood loss after coronary artery bypass grafting. 791 67

Increased risk of central venous line thrombosis in tiny premature infants occurs because the size of the catheter relative to the cross-sectional area of the vessel is large, decreased plasma levels of plasminogen and antithrombin III, and relative low flow of the infusate through the catheter, in comparison with larger infants. A potentially fatal complication of central venous catheters is an intracardiac thrombus. The yield of detecting right atrial thrombi by routine echocardiographic monitoring is very low. Persistent positive blood cultures in infants with central venous lines, in spite of appropriate antibiotic therapy, or signs of catheter occlusion, may increase the yield of echocardiographic detection of intracardiac thrombi. Surgical removal of intracardiac thrombi in infants weighing less than 1500 gm carries a high mortality rate because of the need to use cardiopulmonary bypass with total circulatory arrest and profound hypothermia during surgery. It is in these infants that thrombolysis with urokinase should be considered. A successful therapy with urokinase of a complete occlusion of the right pulmonary artery by an embolus originating from the right atrium is described in a premature infant. For thrombolysis, a loading dose of urokinase of 4400 U/kg followed by 4400 to 8800 U/kg/hr for a few days was used. The thrombolytic effect was manifested by decreased thrombus echogenicity followed by its disappearance, by increased fibrinogen split products, and by decreased plasma fibrinogen. Urokinase therapy may cause massive bleeding, dislodge an intracardiac thrombus causing obstruction of cardiac valves or main vessels or causing embolization to the pulmonary or systemic circulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Central venous line thrombosis in premature infants: a case management and literature review. 839 74

Heparin, a polyanionic glycosaminoglycan, is used routinely before the induction of cardiopulmonary bypass. Earlier observations in our laboratory suggested that the postoperative bleeding that occurs, despite neutralization of heparin with protamine, is secondary to hypothermia and dilutional anemia during bypass. An additional, potential mechanism for excessive bleeding following cardiopulmonary bypass is that heparin activates the fibrinolytic system, which may, in turn, adversely affect hemostasis. To understand better the effects of heparin administration on the fibrinolytic system in vivo, we simulated the anticoagulant regimen of cardiopulmonary bypass by administering increasing doses of intravenous heparin to five adult baboons over 60 min. We measured fibrinolytic parameters serially following heparinization and demonstrated that heparin induces activation of the fibrinolytic system. We showed that the fibrinolytic system was activated in vivo as evidenced by an increase in plasmin activity and immunoreactive plasmin light chain, as well as an increase in immunoreactive fibrinogen fragment E in vitro. These results demonstrate that the fibrinolytic system is activated in vivo by the administration of heparin during cardiopulmonary bypass. These data suggest that, despite administration of a neutralizing agent such as protamine, heparin may contribute to postoperative bleeding complications following cardiopulmonary bypass surgery owing principally to its longer lived effects on the fibrinolytic system.
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PMID:Effect of heparin on fibrinolytic activity and platelet function in vivo. 877 93

The haemostatic system and the use of heparin during cardiopulmonary bypass (CPB) have been studied extensively in adults but not in children. Results from adult trials cannot be extrapolated to children because of age-dependent physiologic differences in haemostasis. We studied 22 consecutive paediatric patients who underwent CPB at The Hospital for Sick Children, Toronto. Fibrinogen, factors II, V, VII, VIII, IX, XII, prekallikrein, protein C, protein S, antithrombin (AT), heparin cofactor II, alpha 2-macroglobulin, plasminogen, alpha 2-antiplasmin, tissue plasminogen activator (tPA), plasminogen activator inhibitor, thrombin-AT complexes (TAT), D-dimer, heparin (by both anti-factor Xa assay and protamine titration) and activated clotting time (ACT) were assayed perioperatively. The timing of the sampling was: pre heparin, post heparin, after initiation of CPB, during hypothermia, post hypothermia, post protamine reversal and 24 h post CPB. Plasma concentrations of all haemostatic proteins decreased by an average of 56% immediately following the initiation of CPB due to haemodilution. During CPB, the majority of procoagulants, inhibitors and some components of the fibrinolytic system (plasminogen, alpha 2 AP) remained stable. However, plasma concentrations of TAT and D-dimers increased during CPB showing that significant activation of the coagulation and fibrinolytic systems occurred. Mechanisms responsible for the activation of haemostasis are likely complex. However, low plasma concentrations of heparin (< 2.0 units/ml in 45% of patients) during CPB were likely a major contributing etiology. ACT values showed a poor correlation (r = 0.38) with heparin concentrations likely due to concurrent haemodilution of haemostatic factors, activation of haemostatic system, hypothermia and activation of platelets. In conclusion, CPB in paediatric patients causes global decreases of components of the coagulation and fibrinolytic systems, primarily by haemodilution and secondarily by consumption.
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PMID:Coagulation and fibrinolytic profile of paediatric patients undergoing cardiopulmonary bypass. 915 80

Although reliable hemostasis screening in the newborn is difficult to obtain, the information gained from such testing is essential in differentiating the inherited from the acquired bleeding disorder. Sick infants are at risk for developing hemorrhage or thrombosis in response to a variety of diseases or injuries. Screening tests must be interpreted using appropriate normal ranges for term or preterm infants. Neonates are particularly susceptible to DIC because of their underdeveloped reticuloendothelial system and their tendency to develop acidosis, hypothermia, hypoxia, and shock. Bleeding is commonly the results of intravascular coagulation or decreased synthesis of clotting factors by the liver. Criteria based on clinical and laboratory findings have been determined in adults; however, these criteria are not necessarily applicable to neonates. A study reviewing 74 cases of newborns with suspected DIC reported that the most reliable diagnostic tests are the platelet count, D-dimer or FDP, PT, PTT, and fibrinogen. Whatever the test, the nurse's accurate assessment of the neonate, careful collection of blood, and reporting of abnormal results remain paramount in obtaining timely, appropriate care.
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PMID:DIC screening in the newborn. 936 97

The purpose of this study is to evaluate the biologic impact of heparin-coated circuits without systemic heparinization during deep hypothermia. Baboons (n=6) were placed on a heparin-coated pediatric closed-circuit cardiopulmonary bypass (CPB) system and cooled to 18 degrees C. A control group (n=7) underwent similar protocol with a non heparin-coated circuit and received systemic heparin. Either low flow at 0.5 L/min/m 2 (n=8; 4 in each group) or circulatory arrest (n=5; 2 in experimental group and 3 in control group) was used during deep hypothermia. Samples for complete blood count (CBC), hepatic and renal function tests, activated clotting time (ACT) and thrombelastogram (TEG) were obtained before, during, and after bypass. Cerebral blood flow was measured using Xenon-133 and autopsies were performed to assess end-organ damage. The ACT returned to baseline in both groups, and renal and hepatic function were within normal limits. There was no significant difference between the TEG values between the groups post bypass. Fibrin split products were absent and fibrinogen levels were normal in both groups following bypass. Cerebral blood flows were equivalent in both groups before and after bypass, although in the heparin-coated group cerebral blood flows were significantly higher during CPB. There were no brain histologic changes in the heparin-coated group and one focal cortical infarct in the control group. This study suggests that hypothermia induced a state of anticoagulation that did not result in thrombus formation or end organ dysfunction during CPB with a heparin-coated circuit.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Safety of heparin-coated circuits in primates during deep hypothermic cardiopulmonary bypass. 1014 70

The coagulation status of infant and pediatric patients can be severely compromised during the course of cardiopulmonary bypass due primarily to hemodilution and hypothermia. Fibrinogen level is one source of information necessary to assess the coagulation status of a patient. An accurate and expedient method to determine the fibrinogen level would allow for earlier initiation of coagulation therapy to prevent excessive postoperative bleeding. The purpose of this study was to compare two methods of determining fibrinogen level: a patient-side assay and a common laboratory analyzer. The patient-side test utilized the HemoChron Fibrinogen Assay and was performed in the operating room. The MLA 1000C was the laboratory method utilized in the hospital's coagulation laboratory. Simultaneous testing was conducted prebypass and intraoperatively on 26 infant and pediatric patients undergoing cardiopulmonary bypass for palliation and correction of congenital heart defects. The resulting values were compared using paired t-test, regression and correlation analysis, and descriptive analysis. The values obtained by the two methods were significantly different (p < .05) at each collection time. Further analysis revealed that other variables, such as hematocrit and platelet count, affected the differences between the results of the methods. The HemoChron Fibrinogen Assay may not be a viable tool for the assessment of fibrinogen level on infant and pediatric patients undergoing cardiopulmonary bypass surgery. Further studies should be done in this patient population incorporating other confounding variables.
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PMID:Clinical comparison of patient-side fibrinogen assay and common laboratory analyzer in pediatric cardiopulmonary bypass. 1017 75


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