Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0034065 (pulmonary embolism)
14,979 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Childhood pulmonary embolism (PE) is a rare but serious condition marked by hypoxemia, shock, right-sided heart failure, and significant risk for fatality. Recommended treatment options include surgical embolectomy, anticoagulation, and thrombolysis. This report describes the successful use of recombinant tissue plasminogen activator to treat PE associated with urosepsis in a 34-day-old infant and reverse severe hemodynamic compromise. Diagnosis of proximal PE and monitoring its treatment were successfully achieved by echocardiography.
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PMID:Successful thrombolytic therapy of pulmonary embolism associated with urosepsis in an infant. 1192 15

Alteplase (t-PA), a recombinant analogue of human tissue plasminogen activator, became the first genetically engineered thrombolytic approved by the Food and Drug Administration in 1987 for acute myocardial infarction (AMI). In addition to AMI, alteplase is currently approved for the treatment of acute ischemic stroke and pulmonary embolism, and we anticipate approval for catheter clearance in late 2001 in a 2-mg vial configuration. With the withdrawal of human neonatal kidney cell-derived urokinase, alteplase has become an alternative agent in peripheral vascular applications. Because few interventionalists had prior experience with the handling and dosage of alteplase, the Advisory Panel to the Society of Cardiovascular and Interventional Radiology established practice guidelines for use in noncoronary applications. Emerging clinical experience with contemporary dosing regimens shows a safety and efficacy profile similar to urokinase but with significantly reduced drug costs. Tenecteplase (TNK) is a genetically modified version of alteplase. TNK is the only plasminogen activator available that has shown a significantly enhanced safety profile versus alteplase in AMI. Approved for a 5-second, single-bolus injection in AMI, TNK possesses a longer half-life, increased resistance to plasminogen activator inhibitor, and improved fibrin specificity compared with alteplase. Because of its enhanced safety profile, TNK may be a desirable agent for peripheral vascular applications. Initial clinical studies with TNK in acute arterial and venous disease are ongoing. This article outlines the Advisory Panel guidelines for using alteplase and highlights features of tenecteplase.
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PMID:Alteplase and tenecteplase: applications in the peripheral circulation. 1198 95

Plasminogen activators (PA) are unique agents that are currently applied as thrombolytic therapy to achieve rapid vascular reperfusion. Regimens of PA plus anticoagulants and antiplatelet drugs have attained a high degree of sophistication and predictable rates of positive clinical outcomes for acute myocardial infarction (MI), ischemic stroke, pulmonary embolism (PE), deep vein thrombosis (DVT), and thrombosed catheters. Included in the repertoire are newly approved mutants of tissue plasminogen activator (TPA), which have biochemical advantages that allow for bolus administration. Yet, despite tremendous effort devoted to enormous trials to establish the clinical efficacy of these agents in acute MI, mortality results are not superior to those with native TPA or streptokinase (SK). Furthermore, all PAs have the potential for hemorrhagic complication, most critically intracranial hemorrhage (ICH), occurring in 0.9% of patients treated with native or mutant TPA. It is possible that a limit of clinical effectiveness has been reached, beyond which more potent PAs do not achieve greater benefit without a serious increase in risk of bleeding. A breakthrough is possible, however, if the risk of ICH could be avoided. One solution is the application of the direct-acting thrombolytic enzyme, plasmin. While intravenous plasmin is not effective when administered systemically, regional infusion to a thrombus induces local thrombolysis. Unlike the PAs, plasmin treatment should not cause hemorrhage from vascular trauma sites, as it is neutralized by antiplasmin in the blood. Animal studies are fully consistent with this approach, which offers potential for achieving a truly regional thrombolytic treatment.
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PMID:Towards safer thrombolytic therapy. 1212 83

Acute myocardial infarction is a very rare event during pregnancy and bears the problem of misdiagnosis. However, about 150 cases have been published worldwide with a preponderance of anterior wall infarcts. With more women delaying childbearing until an older age and increasing prevalence of smoking in young women, it can be expected that all forms of coronary artery disease--including acute myocardial infarction--will be seen more often in the future. Among the causes of coronary artery occlusion in pregnancy are (1) rupture of very small coronary artery plaques triggered by different events, e.g., hypertension; (2) plain coronary artery disease; (3) dissection of coronary arteries; (4) coronary artery spasms with/without arterial thrombosis. Prompt diagnosis and immediate therapy are necessary to lower the high mortality of mother and fetus. The gold standard in the therapy of acute myocardial infarction during pregnancy is immediate coronary angiography and percutaneous transluminal coronary angioplasty (PTCA) with or without stent implantation. Application of thrombolytics (recombinant tissue plasminogen activator [rt-PA], r-PA, streptokinase [SK], urokinase [UK]) has been reported in single patients but should be limited to cases where acute PTCA is not available and where the infarct occurs before the 14th week of pregnancy because of possible embryopathy. If the patient is in the last 10 weeks of pregnancy, anticipation of delivery should be part of the medical planning. Consultation with an obstetrician must be obtained as soon as the patient enters the hospital. Besides bleeding complications, venous thrombosis with pulmonary embolism is among the most common causes of death during pregnancy. Pregnancy-related changes in physiology - increase in the resistance to flow from the lower extremities to the heart - and congenital coagulation abnormalities are most important to be recognized. This leads to the fact that superficial and deep venous thromboses occur more often in pregnancy than in the nonpregnant state. Among the coagulation abnormalities found in pregnancy are hypercoagulability (increased levels of fibrinogen, factor VII, factor VIII, factor X), decreased fibrinolytic activity due to an increased level of plasminogen activator inhibitor, increased adhesion and aggregation of platelets, decreased level of protein C and of the APC (activated protein C) ratio. Individual risks factors justifying diagnostic screening include contraception, smoking, immobilization, infection, adiposity, placental insufficiency, and a family history of thrombosis. It is even more important to establish/rule out the diagnosis of thrombosis in pregnancy than in the nonpregnant state, because the use of anticoagulants carries certain risks during pregnancy. Doppler vein studies should be used for diagnosis. If necessary, venography may be used with shielding of the maternal abdomen. Therapy consists of subcutaneous application of heparin, compression, and early mobilization. Alternatively, especially for long-term management, treatment with low molecular weight heparins is feasible. Thrombolytic treatment is contraindicated in most cases due to the high risk of bleeding complications. However, the application of thrombolytics can be contemplated in single cases after careful consideration of the pros and cons. Most cases of pulmonary embolism should also be handled conservatively with heparin. Only in massive pulmonary embolism with severe hemodynamic compromise, thrombolytic treatment is indicated. To guide future therapy in the patients, it is necessary to establish the lifetime risk of recurrent events by determining: APC resistance, prothrombin mutation 20210 A, homocysteine, AT III, protein C and S, antiphospholipid antibodies, and anticardiolipin antibodies.
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PMID:[Myocardial infarction and thromboembolism during pregnancy]. 1275 75

Pulmonary embolism after lung resection (PEALR) has a high mortality rate, and it is one of the most severe complications after lung resection. Early diagnosis and treatment are essential for PEALR. Here we present 3 cases of severe PEALR. In these cases, transthoracic Doppler echocardiography was useful for confirming the diagnosis of PEALR. Thrombolysis with recombinant tissue plasminogen activator (r-tPA) was used to treat the embolism, and these patients were subsequently discharged. Thus echocardiography may become a primary procedure to confirm the diagnosis of severe PEALR, and thrombolysis with second-generation r-tPA may be the preferred choice for treatment.
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PMID:Pulmonary embolism after lung resection: diagnosis and treatment. 1290 12

More than thirty years have passed since streptokinase was first shown to dissolve pulmonary arterial thrombi and normalize pulmonary artery pressure in patients with acute pulmonary embolism (PE). Following the initial observations, a number of controlled clinical trials confirmed that treatment with streptokinase, urokinase or alteplase recombinant tissue plasminogen activator is superior to heparin alone in improving angiographic and hemodynamic parameters in these patients. At present, there is consensus that patients with massive PE presenting with overt right ventricular failure (clinical instability and cardiogenic shock) should promptly be treated with thrombolytic agents, since they are at a particularly high risk for death or life-threatening complications during the acute phase. At the other end of the clinical spectrum, thrombolysis for PE is not indicated in the absence of right ventricular dysfunction. In fact, the prognosis of patients with small pulmonary emboli (not affecting pulmonary artery pressure and right ventricular afterload), is excellent and, as a result, the bleeding risks of thrombolysis may outweigh the potential benefits of this treatment. Currently, the thrombolysis debate focuses on patients with submassive PE, i.e. those who present with signs of subclinical, impending right heart failure. Recently, a number of clinical studies demonstrated that these patients are also at risk for an adverse clinical outcome. Besides the established prognostic value of echocardiography, evidence is now accumulating that cardiac troponins and, possibly, pro-brain natriuretic peptide levels also may permit an early, reliable risk stratification of patients with PE and particularly help identify submassive PE in the presence of apparent clinical stability. Recently, the Management Strategies and Prognosis of Pulmonary Embolism-3 trial examined the effects of thrombolysis on the prognosis of patients with acute submassive PE. The study patients were randomly assigned to receive alteplase (100 mg over 2 hours) or placebo with concomitant heparin anticoagulation. Although in-hospital mortality was low in both the alteplase and the heparin-only group, this study showed for the first time that early treatment with alteplase can improve the clinical course of patients with acute submassive PE, and particularly reduce the need for emergency escalation of treatment. Importantly, no fatal or cerebral bleeding episodes were observed in the alteplase group. This fact indicates that use of thrombolysis in PE can be safe in patients who have no contraindications to this type of treatment. Based on these data, the indications for thrombolysis can be extended to include patients presenting with submassive PE.
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PMID:Should thrombolytic therapy be used in patients with pulmonary embolism? 1504 19

Successfully utilized contemporary pulmonary embolism (PE) thrombolysis reverses right heart failure rapidly and safely. This therapeutic approach may lower mortality from PE and reduce morbidity from chronic pulmonary hypertension. PE thrombolysis remains a debatable indication because large clinical trials using survival as an endpoint have not been carried out. Instead, thrombolysis trials have been undertaken with surrogate endpoints such as reduction in clot burden, reduction in pulmonary arterial pressure, and improvement in right ventricular function. Currently, the only contemporary thrombolytic regimen for PE that is approved by the Food and Drug Administration is recombinant tissue plasminogen activator, in a dose of 100 mg/2 h. New thrombolytic agents under development for PE include reteplase, saruplase, and recombinant staphylokinase. Future clinical trials will require multicenter collaboration and focus on clinically relevant endpoints such as reduction of mortality and recurrent venous thromboembolism, under particular consideration of the risk of intracranial hemorrhage that ranges between about 1.7% in clinical trials up to approximately 3.0% in a large registry.
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PMID:Thrombolytic therapy in pulmonary embolism. 1519 5

A 78-year-old woman was admitted for pulmonary embolism requiring orotracheal intubation and positive end-expiratory pressure. The pulmonary angiography confirmed a massive pulmonary embolism as suggested by echocardiography. Heparin and recombinant tissue plasminogen activator were successfully administrated; nevertheless, cardiogenic shock developed. A diastolic morphology of the right-left cardiac pressures, despite a normalization of lung vasculature, was discovered by a repeated cardiac catheterization and pulmonary angiography. No tamponade was detected by echocardiography. Computed tomography demonstrated a large pneumomediastinum caused by positive end-expiration pressure, as a cause of the acute diastolic dysfunction. The patient died of a cardiac arrest after an unsuccessful drainage attempt.
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PMID:Acute diastolic dysfunction due to pneumomediastinum following positive end-expiratory pressure--a case report. 1525 90

Even with the benefit of cardiopulmonary resuscitation, the prognosis of cardiac arrest remains poor. Multiple case series describe survival with the use of thrombolytic therapy for refractory cardiac arrest. Presumably thrombolysis treats that subset of cardiac arrest cases resulting from fulminant pulmonary embolism, or perhaps massive myocardial infarctions. Published reports to date have dealt exclusively with streptokinase, urokinase, reteplase, or recombinant tissue plasminogen activator. The authors report the first case of return of spontaneous circulation with the administration of tenecteplase. Tenecteplase is a recently developed reengineered isomer of tissue plasminogen activator that possesses many properties of the ideal cardiac arrest thrombolytic agent. It is bolus dosed, stable at room temperature before reconstitution, and is compatible with most other advanced cardiac life support medications. Because of clinical equivalency and its logistical advantages, tenecteplase should be evaluated as an alternative to other thrombolytics in future trials involving cardiac arrest.
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PMID:Tenecteplase and return of spontaneous circulation after refractory cardiopulmonary arrest. 1555 35

Seven patients with massive pulmonary embolism (PE) causing cardiac arrest underwent percutaneous mechanical thrombectomy (PMT) with Hydrolyser and Oasis catheters during cardiopulmonary resuscitation (CPR). Three received adjunctive recombinant tissue plasminogen activator. Thrombectomy was successful in restoring pulmonary perfusion in six patients (85.7%). One patient died of cardiac arrest. Systolic pulmonary pressure decreased after thrombectomy from a median of 73 mm Hg (range, 63-90 mm Hg) to 42 mm Hg (range, 32-81 mm Hg; P < .05). There was one groin hematoma that required blood transfusion. In conclusion, massive PE causing cardiac arrest can be treated with PMT simultaneously with CPR maneuvers to rapidly revert circulatory collapse, with restoration of pulmonary circulation. Larger series are needed to validate this method.
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PMID:Massive pulmonary embolism: percutaneous mechanical thrombectomy during cardiopulmonary resuscitation. 1564 Apr 19


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