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Management of thromboembolic disease involves administration of anticoagulants, thrombolytics or antiplatelet agents to lyse or prevent thrombus extension. Despite widespread use and decades of experience with some of these agents, much is unknown about the effects of dose and plasma concentration on patient response. Unfractionated heparin (UFH) improves outcome in many thromboembolic disorders when administered to a target activated partial thromboplastin time (aPTT) or plasma heparin concentration. UFH exhibits dose-dependency both with absorption from subcutaneous sites and elimination. Doses based on bodyweight or estimated blood volume attain therapeutic aPTTs faster than fixed or standard doses. Low molecular weight heparins (LMWHs) were developed to increase the anti-factor Xa:anti-factor IIa activities. Several different LMWHs are as effective as UFH in treating deep venous thrombosis. Evidence fails to support a relationship between anti-factor Xa activity and either thrombosis evolution or bleeding. No comparisons have been made between bodyweight-based and anti-factor Xa activity-based doses. The dose of orally administered warfarin is adjusted to achieve a target International Normalised Ratio (INR). Maintenance doses are estimated on the basis of the patient's INR during the first 3 days of therapy: the dose required to achieve an optimal INR decreases with age > 50 years. The thrombolytic agents are administered in standard doses to achieve rapid thrombolysis with minimal alteration in systemic haemostasis. Accelerated intravenous alteplase may result in the highest rate of coronary artery reperfusion. Nevertheless, standard doses of streptokinase, anisoylated plasminogen streptokinase complex and alteplase result in similar 1-month mortality rates. The minimal advantage seen with alteplase is offset by higher rates of stroke. Future trials will focus on administration strategies achieving rapid thrombolysis, while minimising the risk of serious bleeding. With the antiplatelet agents, unpredictability in the pharmacokinetic parameters of different products has confounded interpretation of published reports. Optimal aspirin (acetylsalicylic acid) administration would include administration of an initial dose of 160 to 325mg after an acute vascular event, followed by maintenance dosages of approximately 75 mg/day for prophylaxis or treatment. Ticlopidine does not exhibit a relationship between either plasma concentration or dose and adverse effects, while pharmacodynamic effects may be dose-, but not plasma concentration-, dependent. The correlation between the concentration of dipyridamole and some of its antiplatelet effects may be the strongest amongst all the antiplatelet agents. However, unfortunately all clinical trials used standard doses and the current consensus is that dipyridamole alone is not an effective antiplatelet agent.
Management of thromboembolic disease involves administration of anticoagulants, thrombolytics or antiplatelet agents to lyse or prevent thrombus extension. Despite widespread use and decades of experience with some of these agents, much is unknown about the effects of dose and plasma concentration on patient response. Unfractionated heparin (UFH) improves outcome in many thromboembolic disorders when administered to a target activated partial thromboplastin time (aPTT) or plasma heparin concentration. UFH exhibits dose-dependency both with absorption from subcutaneous sites and elimination. Doses based on bodyweight or estimated blood volume attain therapeutic aPTTs faster than fixed or standard doses. Low molecular weight heparins (LMWHs) were developed to increase the anti-factor Xa:anti-factor IIa activities. Several different LMWHs are as effective as UFH in treating deep venous thrombosis. Evidence fails to support a relationship between anti-factor Xa activity and either thrombosis evolution or bleeding. No comparisons have been made between bodyweight-based and anti-factor Xa activity-based doses. The dose of orally administered warfarin is adjusted to achieve a target International Normalised Ratio (INR). Maintenance doses are estimated on the basis of the patient's INR during the first 3 days of therapy: the dose required to achieve an optimal INR decreases with age > 50 years. The thrombolytic agents are administered in standard doses to achieve rapid thrombolysis with minimal alteration in systemic haemostasis. Accelerated intravenous alteplase may result in the highest rate of coronary artery reperfusion. Nevertheless, standard doses of streptokinase, anisoylated plasminogen streptokinase complex and alteplase result in similar 1-month mortality rates. The minimal advantage seen with alteplase is offset by higher rates of stroke. Future trials will focus on administration strategies achieving rapid thrombolysis, while minimising the risk of serious bleeding. With the antiplatelet agents, unpredictability in the pharmacokinetic parameters of different products has confounded interpretation of published reports. Optimal aspirin (acetylsalicylic acid) administration would include administration of an initial dose of 160 to 325mg after an acute vascular event, followed by maintenance dosages of approximately 75 mg/day for prophylaxis or treatment. Ticlopidine does not exhibit a relationship between either plasma concentration or dose and adverse effects, while pharmacodynamic effects may be dose-, but not plasma concentration-, dependent. The correlation between the concentration of dipyridamole and some of its antiplatelet effects may be the strongest amongst all the antiplatelet agents. However, unfortunately all clinical trials used standard doses and the current consensus is that dipyridamole alone is not an effective antiplatelet agent.
Alteplase (recombinant tissue-type plasminogen activator) stimulates the fibrinolysis of blood clots by converting plasminogen to plasmin. The efficacy of intravenous alteplase in the early treatment of patients with acute myocardial infarction has been unequivocally proven, and recent results from the GUSTO trial indicate a significant advantage in 30-day survival for alteplase in an accelerated dosage regimen (< or = 100mg infused over 90 minutes rather than 3 hours) over streptokinase. The advantage of the accelerated alteplase dosage regimen seems to be maintained for at least 1 year. The role of heparin as adjunctive therapy to thrombolysis remains to be fully defined but heparin administration appears to be more important in conjunction with alteplase than with streptokinase. Ideally, patients should receive alteplase as soon as possible after the onset of symptoms of acute myocardial infarction and, while therapy is most beneficial when administered early, survival is improved when the drug is administered up to 12 hours after symptom onset. The accelerated regimen of alteplase used in the GUSTO trial demonstrated a survival advantage in patients < or = 75 as well as those > 75 years of age which was at least as great as that seen with streptokinase. Similarly, alteplase reduces mortality in patients with both anterior and inferior infarctions; however, those with anterior wall infarctions show an improved outcome over those with inferior infarcts. On the basis of pharmacoeconomic analysis of GUSTO data, the accelerated alteplase regimen cost an estimated additional $US32,678 per year of life saved compared with a conventional streptokinase regimen. Cumulative 1-year costs were greater in patients who received the accelerated alteplase regimen but survival was significantly greater than in patients who received streptokinase. No difference in quality of life was evident in patients who received either treatment. The incidence of major haemorrhage associated with alteplase therapy appears to be similar to that seen with other fibrinolytic agents, increasing with increasing dose; however, the risk of stroke, particularly haemorrhagic stroke, is higher with alteplase than with streptokinase. Thus, alteplase has become firmly established as a first-line option in the management of acute myocardial infarction. On the basis of accumulated evidence, the greatest risk reduction with alteplase therapy may be in certain high risk groups, such as those with anterior infarcts, selected elderly patients and those who present late after symptom onset.
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