Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018799 (heart disease)
 34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Children with cyanotic congenital heart disease who undergo operation with cardiopulmonary bypass are at increased risk of thromboembolic or hemorrhagic complications, or both. Regulation of thrombin, a key enzyme in coagulation, is essential in preventing these complications. We therefore examined the in vitro capacity of plasma from 15 children with cyanotic congenital heart disease to generate thrombin and to inhibit 125I-thrombin before and after cardiopulmonary bypass. We also assessed whether thrombin had been generated in vivo by assaying levels of fibrinogen, thrombin-antithrombin III complexes, and D-dimer. Plasma levels of the thrombin inhibitors, antithrombin III, alpha-2-macroglobulin, and heparin cofactor II were also measured. Thrombin regulation was normal before operation. After cardiopulmonary bypass, the in vitro capacity to generate thrombin decreased by 50%, and this was primarily a result of hemodilution (31%). Similar postoperative decreases were noted in the levels of antithrombin III, heparin cofactor II, and alpha-2-macroglobulin (26% to 45%). However, the total in vitro plasma thrombin inhibitory capacity decreased by only 13%. Levels of thrombin-antithrombin III and D-dimer increased after operation, indicating that thrombin had been generated and inhibited in vivo. Clinically, there were no thromboembolic complications although six patients required replacement therapy for excessive small-vessel bleeding. In conclusion, thrombin regulation is significantly altered after cardiopulmonary bypass. Although thrombin is generated in vivo, the total residual capacity to do so is impaired because of hemodilution. Despite a concomitant decrease in thrombin inhibitor levels, the total residual in vitro capacity of plasma to inhibit thrombin is relatively spared. This suggests that after cardiopulmonary bypass the risk of hemorrhagic complications after an additional hemostatic challenge is relatively greater than the risk of thrombotic complications. This might be reflected in the predominance of hemorrhagic complications in our patients.
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PMID:Thrombin regulation in congenital heart disease after cardiopulmonary bypass operations. 830 75

The time period after implantation of a ventricular assist device in patients with end-stage heart disease is complicated by hemorrhage in the early postoperative period and by thromboembolism in the later course. To investigate the pathophysiologic role of contact activation in 12 bridging patients (10 patients with a paracorporeal Berlin Heart [Berlin Heart GmbH, Berlin, Germany], 2 patients with an intracorporeal Novacor system [Novacor N100; Baxter, Oakland, CA]), hemostatic parameters were determined until heart transplantation or at least up to the 51st postoperative day. The following were observed: 1) In the early postoperative period, until day 15, levels of contact factors XI, XII, and prekallikrein were below normal, whereas levels of plasmin-a2-antiplasmin (PAP) complexes were elevated. Thrombin-antithrombin III (TAT) complexes, as well as platelet factor 4 and beta-thromboglobulin, significantly increased immediately after surgery. 2) In the later postoperative period, starting with the third postoperative week, an increase of factors XI, XII, and prekallikrein was observed. PAP and TAT complexes, as well as platelet factor 4 and beta-thromboglobulin, remained elevated. It is concluded that, in the early postoperative period, hemostasis is influenced mainly by an activation of the intrinsic contact system dependent fibrinolytic system with consumption of contact factors and increased levels of PAP complexes, whereas later system dependent fibrinolysis becomes less important, leading to a shift of the balance toward coagulation, with sustained prothrombin and platelet activation. This is in accord with the observed clinical complications (e.g., early postoperative bleeding, and thromboembolic events later on).
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PMID:Pathophysiologic role of contact activation in bleeding followed by thromboembolic complications after implantation of a ventricular assist device. 857 16

Several studies have shown that thrombosis and inflammation play an important role in the pathogenesis of Ischaemic Heart Disease (IHD). In particular, Tissue Factor (TF) is responsible for the thrombogenicity of the atherosclerotic plaque and plays a key role in triggering thrombin generation. The aim of this study was to evaluate the TF/Tissue Factor Pathway Inhibitor (TFPI) system in patients with IHD. We have studied 55 patients with IHD and not on heparin [18 with unstable angina (UA), 24 with effort angina (EA) and 13 with previous myocardial infarction (MI)] and 48 sex- and age-matched healthy volunteers, by measuring plasma levels of TF, TFPI, Prothrombin Fragment 1-2 (F1+2), and Thrombin Antithrombin Complexes (TAT). TF plasma levels in IHD patients (median 215.4 pg/ml; range 72.6 to 834.3 pg/ml) were significantly (p<0.001) higher than those found in control subjects (median 142.5 pg/ml; range 28.0-255.3 pg/ml). Similarly, TFPI plasma levels in IHD patients were significantly higher (median 129.0 ng/ml; range 30.3-316.8 ng/ml; p<0.001) than those found in control subjects (median 60.4 ng/ml; range 20.8-151.3 ng/ml). UA patients showed higher amounts of TF and TFPI plasma levels (TF median 255.6 pg/ml; range 148.8-834.3 pg/ml; TFPI median 137.7 ng/ml; range 38.3-316.8 ng/ml) than patients with EA (TF median 182.0 pg/ml; range 72.6-380.0 pg/ml; TFPI median 115.2 ng/ml; range 47.0-196.8 ng/ml) and MI (TF median 213.9 pg/ml; range 125.0 to 341.9 pg/ml; TFPI median 130.5 ng/ml; range 94.0-207.8 ng/ml). Similar levels of TF and TFPI were found in patients with mono- or bivasal coronary lesions. A positive correlation was observed between TF and TFPI plasma levels (r = 0.57, p<0.001). Excess thrombin formation in patients with IHD was documented by TAT (median 5.2 microg/l; range 1.7-21.0 microg/l) and F1+2 levels (median 1.4 nmol/l; range 0.6 to 6.2 nmol/l) both significantly higher (p<0.001) than those found in control subjects (TAT median 2.3 microg/l; range 1.4-4.2 microg/l; F1+2 median 0.7 nmol/l; range 0.3-1.3 nmol/l). As in other conditions associated with cell-mediated clotting activation (cancer and DIC), also in IHD high levels of circulating TF are present. Endothelial cells and monocytes are the possible common source of TF and TFPI. The blood clotting activation observed in these patients may be related to elevated TF circulating levels not sufficiently inhibited by the elevated TFPI plasma levels present.
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PMID:Elevated tissue factor and tissue factor pathway inhibitor circulating levels in ischaemic heart disease patients. 953 Oct 29

Atrial fibrillation (AF) is an important risk factor for stroke. According to a pooled analysis of controlled clinical trials with warfarin, anticoagulation therapy reduces stroke risk by 62%. However, clinicians must decide whether the benefit of long-term anticoagulation therapy with available agents outweighs the risk of bleeding for individual patients. Guidelines issued by the American College of Chest Physicians and by the joint American College of Cardiology, American Heart Association, and the European Society of Cardiology task force recommend antithrombotic therapy to protect AF patients from stroke based on risk-stratification algorithms. Risk factors for stroke AF patients include age > or =75 years; hypertension; thyrotoxicosis; diabetes; cardiovascular disease; congestive heart failure; and history of stroke, transient ischemic attack, or thromboembolism. Patients at high risk for stroke experience greater absolute benefit from anticoagulation therapy than patients at low risk. The guidelines are consistent in recommendations for high-risk patients (warfarin therapy, international normalized ratio 2.0 to 3.0) and low-risk patients (aspirin 325 mg), but differ for intermediate-risk patients with diabetes or heart disease. The guidelines continue to evolve, and future guidelines are likely to incorporate new clinical data, including the CHADS(2) algorithm for determining risk and the results of the Atrial Fibrillation Follow-up Investigation of Rhythm Management trial, the Rate Control versus Electrical Cardioversion for Persistent Atrial Fibrillation study, and the Stroke Prevention Using an Oral Thrombin Inhibitor in Atrial Fibrillation II to V trials.
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PMID:Comparing the guidelines: anticoagulation therapy to optimize stroke prevention in patients with atrial fibrillation. 1502 46

The aim of this study was to investigate the possible suitability of the calibrated automated thrombography to determine the coagulation status of pediatric patients with congenital heart disease. Thrombin generation was measured in 60 patients with congenital heart disease using the calibrated automated thrombography and compared to data using standard coagulation parameters such as prothrombin, antithrombin, tissue factor pathway inhibitor, prothrombin fragment 1.2 (F 1.2), and activated partial thromboplastin time. A significant positive correlation was observed between prothrombin and the endogenous thrombin potential (P < 0.01; r = 0.295) as well as between prothrombin and peak height (P < 0.01; r = 0.581). A significant negative correlation was seen between tissue factor pathway inhibitor and endogenous thrombin potential (P < 0.01; r = -0.480) and between tissue factor pathway inhibitor and peak height (P < 0.01; r = -0.234). No statistically significant correlation was found between antithrombin and parameters of continuous thrombin generation. Significant correlation was seen neither between activated partial thromboplastin time and F1.2 nor between activated partial thromboplastin time and prothrombin. The data presented here indicate that calibrated automated thrombography measurements determine thrombin generation more accurately and therefore reflect better the coagulation status of pediatric patients with congenital heart disease then standard global coagulation assays such as activated partial thromboplastin time.
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PMID:Pediatric patients with congenital heart disease: thrombin generation measured by calibrated automated thrombography. 1860 87

Impaired haemostasis has been reported in children with congenital heart disease undergoing cardiopulmonary bypass. As thrombin generation encompasses all phases of the coagulation process, this analysis might provide the best assessment of global haemostasis. A prospective study was undertaken to test the hypothesis that thrombin generation reveals an impaired haemostasis after paediatric cardiac surgery and that ex-vivo addition of platelet concentrate and haemostatic agents improves thrombin generation. The study comprised 29 children with congenital heart disease, who underwent corrective surgery including cardiopulmonary bypass. Thrombin generation was analysed both in platelet-poor plasma and platelet-rich plasma. Analysis of the thrombin generation showed a significantly prolonged lag time (Pplatelet-poorandplatelet-richplasma < 0.001), decreased peak thrombin generation (Pplatelet-poorplasma = 0.013; Pplatelet-richplasma < 0.001) as well as a decreased endogenous thrombin generation potential (Pplatelet-poorandplatelet-richplasma < 0.001) after cardiopulmonary bypass compared to baseline. Ex-vivo addition of platelet concentrate, fibrinogen concentrate and recombinant factor VIIa improved thrombin generation significantly (all P < 0.001). Changes were most pronounced after addition of platelet concentrate. The present study showed that thrombin generation was significantly reduced after cardiopulmonary bypass in children, both when analysed in platelet-poor and platelet-rich plasma. The impaired haemostasis was not only restored after ex-vivo addition of platelet concentrate but also rVIIa improved the haemostatic capacity.
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PMID:Changes in thrombin generation in children after cardiac surgery and ex-vivo response to blood products and haemostatic agents. 2625 71