Benefits and risks of thrombolysis for acute myocardial infarction

Thrombolytic therapy is a major step forward in the treatment of acute myocardial infarction and may result in up to 50% mortality reduction, provided that it is administered early (chapter 1). In 80 to 85% of patients with suspected acute myocardial infarction, a coronary artery is blocked by a clot. With thrombolytic therapy the closed coronary artery is desobstructed in may cases, is infarct size limited and left ventricular function preserved. Several thrombolytic agents are available for clinical use: streptokinase, APSAC, urokinase and more recently recombinant tissue-type plasminogen activator (rt-PA or alteplase). The latter is the genetically engineered natural occurring plasminogen activator. Which agent is superior is still a matter of debate. Unlike streptokinase, APSAC and urokinase, rt-PA dissolves blood clots without degradation of circulating fibrinogen during in vitro and in animal experiments, provided that the dose does not exceed a certain threshold. This property of rt-PA is called fibrin

Thrombolysis with tissue plasminogen activator in acute myocardial infarction: no additional benefit from immediate percutaneous coronary angioplasty

A randomised trial of 367 patients with acute myocardial infarction was performed to determine whether an invasive strategy combining thrombolysis with recombinant tissue-type plasminogen activator (rTPA), heparin, and acetylsalicylic acid, and immediate percutaneous transluminal coronary angioplasty (PTCA) would be superior to a noninvasive strategy with the same medical treatment but without immediate angiography and PTCA. Intravenous infusion of 100 mg rTPA was started within 5 h after onset of symptoms (median 156 min). Angiography was performed 6-165 min later in 180 out of 183 patients allocated to the invasive strategy; 184 patients were allocated to the non-invasive strategy. Immediate PTCA reduced the percentage stenosis of the infarc

Tailored thrombolytic therapy. A perspective

BACKGROUND. In contrast with current standard regimens, it seems more appropriate to tailor thrombolytic therapy to individual patient characteristics. A proposed model for such tailored therapy is based on individual assessment of benefits and risks of thrombolytic therapy, taking into account the response of individual patients to the therapy given. METHODS AND RESULTS. Potential benefits of thrombolysis in individual patients can be predicted by use of demographic patient characteristics (age, sex, history of previous infarction) together with indicators of the ischemic area at risk (total ST segment deviation) and treatment delay. Using these parameters, the number of "lives saved" by thrombolytic therapy for specific patient characteristics can be estimated. Similarly, the risk of intracranial hemorrhage during thrombolytic therapy can be estimated from the patient's age, blood pressure at admission, and body weight. Depending on benefit/risk estimates, a choice can be made between regimens with high, medium, or modest thrombolytic efficacy. Continuous multilead ECG ischemia monitoring and rapid assays of myocardial proteins in serum can be used to assess the occurrence or absence of reperfusion and to detect signs of reocclusion. Such data help to decide whether thrombolytic therapy should be continued or intensified or might be discontinued in individual patients before the total standard dose has been administered. Such tailored reduction of the total thrombolytic dose will reduce the risk for bleeding complications in some of the patients. CONCLUSIONS. The concept of tailoring thrombolytic therapy and the models presented for benefit/risk assessment should be tested in clinical studies and may subsequently help the physician to select the optimal approach in individual patients

Trombolytische therapie van het acute hartinfarct

Trombolytische behandeling van het hartinfarct is één van de belangrijkste aanwinsten van de laatste jaren voor het therapeutisch arsenaal van de medicus practicus. Elders in dit tijdschrift worden de belangrijkste onderzoeksresultaten samengevat.1 De eerste onderzoekingen naar de baten van trombolyse bij het hartinfarct dateren van meer dan 20 jaar geleden. Doordat geen metingen van infarctgrootte of functie van de linker hartkamer werden verricht en de onderzoekingen steeds te klein waren om sterftereductie door trombolyse aan te kunnen tonen, konden er geen conclusies uit worden getrokken. Dit is wél mogelijk bij de onderzoekingen die gedurende de laatste jaren zijn uitgevoerd

Assessment of the bradycardic and inotropic properties of ST 567 using a new scheme of administration

In 10 patients undergoing diagnostic cardiac catheterisation a bolus of 15 mg ST 567 was administered intravenously in 1.5 min followed by a 30 min infusion of 7.5 mg. The maximal plasma level was 343 +/- 131 ng ml-1 (mean +/- s.d.) 1 min after bolus injection and stabilised around 179 ng ml-1 thereafter. Heart rate decreased from 71 +/- 10 beats min-1 at baseline to 66 +/- 10 beats min-1 at the end of the bolus injection (-7%). This decrease in heart rate persisted during the whole observation period. Also there was an 8% reduction in peak positive first derivative of LV pressure. Cardiac output measured by thermodilution during atrial pacing decreased from 5.9 +/- 1.1 l min-1 to 5.3 +/- 0.7 l min-1 (P less than 0.02). In 3 patients with the largest decrease in cardiac output, the end diastolic LV pressure at the end of the observation period decreased, which may reflect a decrease in pre-load. Only in 1 patient the decrease in end diastolic LV pressure exceeded twice the standard deviation of the random error component of duplicate measurements. Thus, although normal therapeutic plasma levels were achieved, ST 567 demonstrated negative inotropic properties independent of changes in heart rate with this scheme of administration

Estimated gain in life expectancy

Currently several modes of reperfusion therapy for acute myocardial infarction are available. Streptokinase, accelerated alteplase and direct angioplasty are the most frequently used. These options are increasingly effective, but are also increasingly complex and costly. Since, unfortunately, physicians are often restricted by budget limitations, choices must be made in clinical practice to provide optimal therapy to individual patients. In order to guide such decision making, we developed a model to predict the expected benefit of therapy in terms of gain in life expectancy. Patients' life expectancy will decrease after infarction. Part of this loss can be prevented by early reperfusion therapy. The clinical benefit of therapy ranges from negligible gain in patients with small infarcts treated relatively late to an expected gain of more than 2 years in patients with extensive infarction treated within 3 h of onset of symptoms. The expected benefits are presented in a set of tables and depend on age, previous infarction, estimated infarct size, treatment delay and intracranial bleeding risk. With the help of these table, resources will be allocated in such a manner that patients who will benefit the most will receive the most effective therapy. Patients with similar expected treatment benefit will be offered the same mode of therapy. Future life years were discounted at 5% per year. The arbitrary thresholds currently applied for decision making at the Thoraxcenter are: no reperfusion therapy when the estimated gain in discounted life expectancy was or = 5 months. Direct angioplasty is recommended in patients with an estimated gain > or = 12 months, and in patients with an increased risk of intracranial bleeding. In this way, approximately 80% of our patients will be treated with thrombolytics (40% streptokinase and 40% accelerated alteplase), while in 10% direct angioplasty will be initiated. Patients with small infarcts presenting late will not receive reperfusion therapy. These threshold values have been chosen arbitr

Benefit of Thrombolytic Therapy is Sustained Throughout Five Years and Is Related to TIMI Perfusion Grade 3 But Not Grade 2 Flow at Discharge

BACKGROUND: Long-term follow-up in patients treated with thrombolysis for acute myocardial infarction thus far has been reported in a few studies only, and no long-term follow-up is available for patients who underwent additional percutaneous transluminal coronary angioplasty (PTCA). This report describes 5-year survival as collected in patients who received placebo, recombinant tissue plasminogen activator (rTPA), or rTPA with additional immediate PTCA in two European Cooperative Study Group trials. Determinants for long-term survival were assessed in 1043 patients discharged alive. METHODS AND RESULTS: Five-year follow-up information on mortality was collected. Hospital mortality was lower after rTPA than placebo (2.5% versus 5.7%, P = .04) and higher after rTPA with immediate PTCA compared with rTPA without additional intervention (6.0% versus 2.2%, P = .07). Of the 1043 hospital survivors, data were available for 923 patients, of whom 109 died. In the placebo group, mortality after hospital discharge was 10.7% versus 11.0% in the comparative rTPA group. The patients treated with rTPA and immediate PTCA had a mortality rate of 10.5% versus 8.9% in the rTPA group without PTCA (all P = NS). Significant determinants of mortality in multivariate proportional hazards analysis were enzymatic infarct size, indicators of residual left ventricular function, number of diseased vessels and TIMI perfusion grade at discharge. Patients with TIMI grade 2 flow had mortality rates similar to those with TIMI flow grades 0 and 1, while prognosis was better in patients with TIMI flow grade 3. CONCLUSIONS: The initial in-hospital benefit of thrombolysis with intravenous rTPA is maintained throughout 5 years, with no early or late beneficial effect of systematic immediate PTCA. Enzymatic infarct size, left ventricular function, and extent of coronary artery disease are predictors for long-term survival. TIMI perfusion grade 2 at discharge should be considered as an inadequate result of therapy

Reasons for the lack of benefit of immediate angioplasty during recombinant tissue plasminogen activator therapy for acute myocardial infarction: a regional wall motion analysis

Regional ventricular wall motion analysis utilizing three different methods was performed on predischarge left ventriculograms from 291 of 367 patients enrolled in a randomized trial of single chain recombinant tissue-type plasminogen activator (rt-PA), aspirin and heparin with and without immediate angioplasty in patients with acute myocardial infarction. With univariate analysis, no difference in regional wall motion variables between the two treatment groups was observed. However, with individual baseline risk assessment by multivariate linear regression analysis using baseline characteristics known to be related to left ventricular function after thrombolytic therapy or outcome of coronary angioplasty, or both, an excess of high risk patients in the invasive treatment group was detected. To adju

Increased serum levels of fibrinogen degradation products due to treatment with recombinant tissue-type plasminogen activator for acute myocardial infarction are related to bleeding complications, but not to coronary patency

The association of increasing serum levels of fibrinogen degradation products after recombinant tissue-type plasminogen activator (rt-PA) therapy with bleeding and early coronary patency was assessed in 242 patients with acute myocardial infarction. After administration of 5,000 IU heparin, a median of 40 mg (range 35 to 60) of double chain rt-PA was given intravenously in 90 min. Bleeding occurred in 62 patients; in 73% of patients it was observed within the 1st 24 h and 84% of events consisted of hematoma or prolonged bleeding, or both, at puncture sites. Bleeding events occurred 2.12 times as often in patients with serum levels of fibrinogen degradation products greater than 85 mg/liter as in patients with ser