Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.2.1.1 (ACS)
 78,556 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Non-ST elevation Acute Coronary Syndrome (NSTE-ACS) is a myocardial ischemic disorder frequently caused by coronary artery plaque rupture and partial or transient vessel occlusion. Platelets and thrombin play pivotal roles in formation and propagation of thrombus at the site of plaque disruption and embolization into the vascular bed. With the outgoing development of antithrombotic, antiplatelet, and mechanical therapies, the management of NSTE-ACS is constantly evolving. Heparins are the cornerstone of antithrombotic therapy in the current management of NSTE-ACS. Unfractionated heparin and fractionated heparins like enoxaparin have been studied in several large clinical trials and found to be effective in reducing death and myocardial infarction rates. For medical management alone or primarily (conservative strategy), enoxaparin has been shown to be superior to unfractionated heparin. With an early invasive strategy providing better clinical outcome compared to a conservative strategy, the paradigm of ACS management has shifted in favor of early (within 48 hours of admission) cardiac catheterization. The effectiveness of enoxaparin compared to unfractionated heparin is now being re-considered in the era of poly-pharmacotherapy and an early invasive strategy for ACS management. We review the role of enoxaparin in the contemporary treatment of NSTE-ACS utilizing recent clinical trial data.
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PMID:Enoxaparin in clinical practice and clinical trials of non-ST-elevation Acute Coronary Syndrome (NSTE-ACS). 1605 1

The composition of an atherosclerotic plaque is an important determinant of plaque stability. Unstable rupture-prone plaques are characterized by a thin fibrous cap that contains few muscle cells. Several lines of evidence suggest that macrophage activation in the unstable shoulder of the plaque could contribute to plaque rupture by releasing toxic factors, possibly nitric oxide (NO), to smooth muscle cells. These macrophages are also involved in the uptake of apoptotic cells (AC) and the inefficient removal of the latter might contribute to the formation of the necrotic core through accumulation of necrotic debris. Furthermore, these AC rapidly expose phosphatidylserine on their surface, which is a potent substrate for the generation of thrombin and activation of the coagulation cascade. The following new insights in the etiopathogenesis of atherothrombosis will be discussed: (1) Human atherosclerotic plaques contain amyloid precursor protein (APP) and beta-amyloid peptide, which is cleaved from APP and which has been extensively studied in Alzheimer's disease. Macrophages phagocytose platelets,which contain APP in their alpha-granules and this platelet derived APP is subsequently proteolytically processed in these macrophages into beta-amyloid The latter is involved in the upregulation of the inducible NO-synthase which results in an increased production of toxic amounts of NO. (2) Phagocytosis of the pro-coagulant ACS is severely impaired in advanced human atherosclerotic plaques. Several factors present in the atherosclerotic lesion,such as accumulation of indigestible material in the macrophage cytoplasm,oxidative stress,and the presence of oxidized LDL or oxidized erythrocytes may contribute to the impairment of phagocytosis. (3) In order to study the impact of the impaired phagocytosis by the macrophages on the atherosclerotic lesion development,a double knock-out mouse was created which spontaneously develops atherosclerosis combined with a deficient phagocytotic capacity. Completely unexpected the double-knock out mouse developed an until now not described phenotype resembling the metabolic syndrome including a spectacular increase in body weight,accumulation of abdominal fat and fat in the liver and increased plasma levels of cholesterol. Furthermore the atherosclerotic lesions demonstrated a striking different morphology as compared to the lesions present in mice which spontaneously develop atherosclerosis.
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PMID:[New insights into the etiopathogenesis of atherosclerosis and atherothrombosis]. 1717 27

Non-ST elevation acute coronary syndrome (NSTE-ACS) refers to a cardiovascular disorder characterized by intracoronary thrombus formation on a disrupted atherosclerotic plaque with partial or transient occlusion. Generation of thrombin resulting from exposure of collagen leads to activation of platelets and conversion offibrinogen to fibrin, thus forming a platelet-rich thrombus. The main therapeutic objective is to protect the patient from thrombotic complications, independent of the choice of antithrombotic agents. The management of NSTE myocardial infarction (MI) is constantly evolving. For primarily conservative strategy, enoxaparin has been proven superior to unfractioned heparin (UFH). With early invasive strategy providing better clinical outcome compared with conservative strategy, the effectiveness of enoxaparin in reducing death and MI rates is now being reconsidered in the era of poly-pharmacotherapy, early percutaneous coronary interventions and drug eluting stents. Bleeding complications can be minimized by avoiding cross-over from UFH to enoxaparin or vice versa, or by reducing the dosage of enoxaparin. We review the studies of enoxaparin and discuss its current role in the contemporary treatment of NSTE-ACS.
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PMID:Enoxaparin injection for the treatment of high-risk patients with non-ST elevation acute coronary syndrome. 1758 Jul 32

The management of unstable angina/non ST elevation myocardial infarction (UA/NSTEMI) has evolved substantially in recent years. Multiple new antithrombotic options are available; in addition, the use of interventional strategies in patients with UA/NSTEMI has become the dominant strategy, particularly in tertiary centers. On the one hand, we are doing more percutaneous interventions more rapidly in ACS patients. On the other hand, we have an ever-expanding therapeutic armamentarium to apply in these complex clinical circumstances. Much of the controversy surrounding modern-day management is not so much about the specific the choice of agent or strategy, but rather how to use these agents most effectively in a clinical environment where patients may come forward to the catheterization laboratory, sometimes rapidly, and may require percutaneous or surgical revascularization. All available antithrombotic agents act on one (or more) of the four steps of coagulation: platelet activation, platelet aggregation, thrombin generation, and thrombin activity. The antiplatelet agents, aspirin, thieno-pyridines, and glycoprotein (GP) IIb/IIIa antagonists, target the early steps of platelet activation and aggregation. The antithrombin agents, unfractionated heparin, low molecular weight (LMW) heparin, Xa inhibitors, and direct thrombin antagonists, act specifically to target thrombin generation, thrombin activity, or both. We will review the major recent trials that comprise the current state of knowledge regarding these new antithrombotic agents in ACS, and discuss some of the near-future additions to our armamentarium, including prasugrel, Cangrelor, and AZD6140. The most recent ACC/AHA and ESC unstable angina guidelines have emphasized that multiple options are available, and no one agent can be recommended over the others in all cases. There is NOT one perfect antithrombotic regimen for all patients. Antithrombotic therapy needs to be individualized, and that so-called ''standard'' therapy may need to be supplemented (or even replaced) in specific circumstances. Ultimately, determining optimal therapy means understanding the physiology, understanding the therapeutic options - not just how they work, but how they may work together, and being able to interpret a never-ending supply of new clinical trial data that have to be applied in the ''real world''.
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PMID:Antithrombotic therapy and the transition to the catheterization laboratory in UA/NSTEMI. 1791 62

A series of logic gates, "AND", "OR", and "XOR", are designed using a DNA scaffold that includes four "footholds" on which the logic operations are activated. Two of the footholds represent input-recognition strands, and these are blocked by complementary nucleic acids, whereas the other two footholds are blocked by nucleic acids that include the horseradish peroxidase (HRP)-mimicking DNAzyme sequence. The logic gates are activated by either nucleic acid inputs that hybridize to the respective "footholds", or by low-molecular-weight inputs (adenosine monophosphate or cocaine) that yield the respective aptamer-substrate complexes. This results in the respective translocation of the blocking nucleic acids to the footholds carrying the HRP-mimicking DNAzyme sequence, and the concomitant release of the respective DNAzyme. The released product-strands then self-assemble into the hemin/G-quadruplex-HRP-mimicking DNAzyme that biocatalyzes the formation of a colored product and provides an output signal for the different logic gates. The principle of the logic operation is, then, implemented as a possible paradigm for future nanomedicine. The nucleic acid inputs that bind to the blocked footholds result in the translocation of the blocking nucleic acids to the respective footholds carrying the antithrombin aptamer. The released aptamer inhibits, then, the hydrolytic activity of thrombin. The system demonstrates the regulation of a biocatalytic reaction by a translator system activated on a DNA scaffold.
ACS Nano 2009 Jul 28
PMID:Logic gates and antisense DNA devices operating on a translator nucleic Acid scaffold. 1950 21

Owing to its beneficial pharmacological profile, the low-molecular-weight heparin (LMWH) enoxaparin is increasingly being taken as an alternative to UFH in the treatment of ACS with an early invasive strategy and in elective percutaneous coronary interventions (PCI). Insufficient anticoagulation increases the risk of catheter thrombus formation during PCI. The aim of the present study was to test in vitro the hypotheses that (i) inhibiting thrombin or thrombin generation by administering LMWH is a critical intervention in preventing catheter thrombus formation and (ii) other LMWH such as certoparin or dalteparin are as effective as enoxaparin. Blood pre-treated with the anticoagulants of interest was continuously circulated through a guiding catheter by using a roller pump for a maximum experimental period of 60 min or until the catheter became occluded. Overall thrombus weight, anti-Xa activity and electron microscopic features such as deposits of platelets, erythrocytes and fibrin on the catheter surface were quantified as endpoints. All LMWH tested significantly reduced catheter thrombus generation comparable to UFH treatment whereas there was no difference between the specific LMWH with respect to catheter thrombus formation or deposition of platelets, erythrocytes and fibrin. Thrombus generation was found to negatively correlate with anti-Xa activity. The additional use of eptifibatide did not affect thrombus formation. These data suggest that modulating plasmatic coagulation by employing LMWH is critical for preventing catheter thrombus formation and at the same time offer a potential for administering LMWH other than enoxaparin, such as certoparin or dalteparin, in the setting of PCI.
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PMID:Efficacy of enoxaparin, certoparin and dalteparin in preventing cardiac catheter thrombosis: an in vitro approach. 1951 16

Morbidity and mortality in patients with atherothrombotic disease remain high despite the use of antiplatelet therapy with aspirin and an ADP receptor antagonist. Selective inhibition of the principal protease-activated receptor (PAR)-1 for thrombin, the most potent agonist for platelet activation, represents a promising novel strategy to reduce thrombosis and ischaemic events. SCH 530348, a potent thrombin receptor antagonist (TRA) selective for PAR-1, has been evaluated in preclinical studies, demonstrating complete and sustained inhibition of thrombin/TRAP-induced platelet aggregation without a concomitant increase in the risk of bleeding. Phase 2 studies in patients undergoing non-urgent or urgent PCI showed that treatment with SCH 530348 in addition to the standard of care (aspirin plus an ADP receptor antagonist) is not associated with an increased risk of TIMI bleeding and is well tolerated, with a rate of adverse events comparable to standard therapy alone. These studies also demonstrated that the use of SCH 530348 in combination with aspirin and an ADP receptor antagonist may reduce the incidence of major adverse cardiac events, specifically periprocedural myocardial infarction, vs aspirin plus an ADP receptor antagonist alone. On the basis of these encouraging results, 2 ongoing large phase 3 randomized trials are evaluating the efficacy and safety of SCH 530348 in combination with the standard-of-care therapy in approximately 35,000 patients with NSTE ACS or established atherosclerosis.
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PMID:Improving antiplatelet therapy for atherothrombotic disease: preclinical results with SCH 530348, the first oral thrombin receptor antagonist selective for PAR-1. 1988 73

The biocompatibility of iron-polysaccharide complexes has been well-documented. Herein, a stable thrombo-resistant coating was fabricated by consecutive adsorption of Fe (III) and polysaccharides including heparin (Hep) and dextran sulfate (DS) onto various surface by layer-by-layer self-assembly technique via both electrostatic interaction and chemical complexation process. The absorbance at 350 nm increased linearly with the number of Fe3+/Hep multilayer, indicating the formation of multilayer structure and the uniform coating. Compared with (Fe3+/Hep)10, the (Fe3+/DS/Fe3+/Hep)5 coating was more hydrophilic and stable due to the incorporation of DS. The activated partial thromboplastin time (APTT) and platelet adhesion assays showed that both (Fe3+/Hep)10 and (Fe3+/DS/Fe3+/Hep)5 coated surfaces were anticoagulant. The complexing with ferric ions did not compromise the catalytic capacity of heparin to promote antithrombin(III)-mediated thrombin inactivation. Chromogenic assays for heparin activity proved definitively that the inhibition of locally produced thrombin was contributed to the thromboresistance of the surface-bound heparin. The surface with Hep or DS as the outmost layer showed stronger anticoagulant activity than Fe3+, indicating that the outermost layer of the coating played a key role in anticoagulant activity. The utilization of dextran sulfate/heparin surfaces was more advantageous than merely the heparin surface for improving blood-contacting medical devices for long-term usage.
ACS Appl Mater Interfaces 2009 Jan
PMID:Novel thrombo-resistant coating based on iron-polysaccharide complex multilayers. 2035 62

Composite materials made up from a pyridinium polymer matrix and silver bromide nanoparticles embedded therein feature excellent antimicrobial properties. Most probably, the antimicrobial activity is related to the membrane-disrupting effect of both the polymer matrix and Ag(+) ions; both may work synergistically. One of the most important applications of antimicrobial materials would be their use as surface coatings for percutaneous (skin-penetrating) catheters, such as central venous catheters (CVCs). These are commonly used in critical care, and serious complications due to bacterial infection occur frequently. This study aimed at examining the possible effects of a highly antimicrobial pyridinium polymer/AgBr composite on the blood coagulation system, i.e., (i) on the coagulation cascade, leading to the formation of thrombin and a fibrin cross-linked network, and (ii) on blood platelets. Evidently, pyridinium/AgBr composites could not qualify as coatings for CVCs if they trigger blood coagulation. Using a highly antimicrobial composite of poly(4-vinylpyridine)-co-poly(4-vinyl-N-hexylpyridinium bromide) (NPVP) and AgBr nanoparticles as a thin adherent surface coating on Tygon elastomer tubes, it was found that contacting blood platelets rapidly acquire a highly activated state, after which they become substantially disrupted. This implies that NPVP/AgBr is by no means blood-compatible. This disqualifies the material for use as a CVC coating. This information, combined with earlier findings on the hemolytic effects (i.e., disruption of contacting red blood cells) of similar materials, implies that this class of antimicrobial materials affects not only bacteria but also mammalian cells. This would render them more useful outside the biomedical field.
ACS Appl Mater Interfaces 2009 Sep
PMID:Disruption and activation of blood platelets in contact with an antimicrobial composite coating consisting of a pyridinium polymer and AgBr nanoparticles. 2035 31

Noble metals are interesting biomaterials for a number of reasons, e.g., their chemical inertness and relative mechanical softness, silver's long known antimicrobial properties, and the low allergenic response shown by gold. Although important for the final outcome of biomaterials, little is reported about early events between pure noble metals and blood. In this article, we used whole blood in the "slide chamber model" to study the activation of the immune complement activation, generation of thrombin/antithrombin (TAT) complexes, and platelet depletion from blood upon contact with silver (Ag), palladium (Pd), gold (Au), titanium (Ti), and Bactiguard, a commercial nanostructured biomaterial coating comprised of Ag, Pd, and Au. The results show the highest TAT generation and platelet depletion on Ti and Au and lower on Pd, Ag, and the Bactiguard coating. The immune complement factor 3 fragment (C3a) was generated by the surfaces in the following order: Ag > Au > Pd > Bactiguard > Ti. Quartz crystal microbalance adsorption studies with human fibrinogen displayed the highest deposition to Ag and the lowest onto the Bactiguard coating. The adsorbed amounts of fibrinogen did not correlate with thrombogenicity in terms of TAT formation and platelet surface accumulation in blood. The combined results suggest, hence, that noble metal chemistry has a different impact on the protein adsorption properties and general blood compatibility. The low thrombogenic response by the Bactiguard coating cannot be explained by any of the single noble metal properties but is likely a successful combination of the nanostructure, nanogalvanic effects, or combinatory chemical and physical materials properties.
ACS Appl Mater Interfaces 2009 May
PMID:Blood interactions with noble metals: coagulation and immune complement activation. 2035 91


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