New recombinant glycosylated prourokinase for treatment of patients with acute myocardial infarction. Prourokinase Study Group

Thrombolysis with Recombinant Human Prourokinase 4.5-6 h After Acute Ischemic Stroke: A Phase IIa, Randomized, and Open-Label Multicenter Clinical Trial

BACKGROUND

Ischemic stroke is a major cause of disability and death worldwide. A narrow therapeutic window profoundly constrained the utilization of alteplase.

OBJECTIVES

To investigate therapeutic effects and safety of intravenous recombinant human prourokinase (rhPro-UK) in patients with acute ischemic stroke (AIS) in the 4.5-6 h therapeutic time windows.

METHODS

We conducted a phase IIa, randomized, and open-label multicenter clinical trial. Between 4.5 and 6 h after the onset of AIS, patients were randomly administrated to receive intravenous rhPro-UK at a 50 mg or 35 mg dose. The primary endpoint was excellent functional outcome defined as modified Rankin scale (mRS) score of 1 or less at 90 days. The secondary outcome was the treatment response, which was based on an at least 4-point improvement from baseline National Institutes of Health stroke scale (NIHSS) score at 24 h after drug administration. Safety endpoints included death, symptomatic intracerebral hemorrhage (sICH), and other serious adverse events.

RESULTS

We enrolled 80 patients in the 4.5-6 h therapeutic time windows at 17 medical centers in China from December 2016 to November 2017. A total of 39 patients were treated with 50 mg rhPro-UK, and 39 were treated with 35 mg rhPro-UK. Compared with the baseline, the NIHSS score at 24 h and days 7, 14, 30, and 90 was decreased significantly among patients treated with either rhPro-UK 50 mg or 35 mg. The mean reduction in the NIHSS from baseline to 90 days after the onset was 3.56 and 5.79 in the rhPro-UK 50 mg group and the rhPro-UK 35 mg group, respectively. The rates of functional independence at 90 days of rhPro-UK 50 mg and 35 mg were 61.54% and 69.23%, respectively (P = 0.475), and the proportion of patients with functional response to treatment at 24 h were 28.21% and 33.33% (P = 0.624). No sICH occurred in the two groups, and death occurred in only one patient in the rhPro-UK 50 mg group. There was no significant difference in mortality at 90 days and the rate of other serious adverse events between two groups.

CONCLUSION

In the 4.5-6 h time window, more than 60% of patients at either dose of rhPro-UK (50 mg or 35 mg) achieved functional independence at 90 days without increased mortality and sICH risk. Thus, intravenous rhPro-UK was effective and safe for patients with AIS within 4.5-6 h after stroke onset. While no significant differences were identified between different dosages of rhPro-UK regarding clinical outcomes, it is a logical step to further test the safety and efficacy of the low dose of rhPro-UK in a well-powered phase III study.

TRIAL REGISTRATION

http://www.chictr.org.cn . Identifier: ChiCTR1800016519. Date of registration: 6 June 2018.

Fibrinolysis: a Misunderstood Natural Defense Whose Therapeutic Potential Is Unknown

Ever since tissue plasminogen activator (tPA) was approved for therapeutic fibrinolysis in 1987, it has been the fibrinolytic of choice. At the same time, it is also recognized that tPA never lived up to its clinical expectations and has more recently been replaced by percutaneous coronary intervention (PCI) as the treatment of choice for acute myocardial infarction (AMI). For other occlusive vascular diseases and for patients in remote areas, tPA remains an essential option. In view of the continued importance of fibrinolysis, it is disappointing that fibrinolysis never evolved beyond what it was when tPA replaced streptokinase (SK) 32 years ago. The endovascular procedure replacement for AMI treatment suffers from being technically demanding, time-consuming, and costly. An untested alternative fibrinolytic paradigm is that of the endogenous, physiological system, which is initiated by tPA but then is followed by the other natural plasminogen activator, urokinase plasminogen activator (uPA). In this combination, it is uPA rather than tPA that has the dominant function. This is also evident from gene knockout studies where deletion of uPA that it has the dominant effect. The fibrinolytic properties of tPA and uPA are complementary so that their combined effect is synergistic, especially when they are administered sequentially starting with tPA. Endogenous fibrinolysis functions without bleeding side effects and is ongoing. This is evidenced by the invariable presence in blood of the fibrin degradation product, D-dimer (normal concentration 110-250 ng/ml). This activator combination, consisting of a mini bolus of tPA followed by a 90-min proUK infusion, was once used to treat 101 AMI patients. Compared with the best of the tPA mega trials, this regimen resulted in an almost a doubling of the infarct artery patency rate and reduced mortality sixfold. To date, a second trial has not yet been done.

Safety and efficacy of prourokinase injection in patients with ST-elevation myocardial infarction: phase IV clinical trials of the prourokinase phase study

To evaluate the safety and efficacy in terms of infarct-related artery (IRA) patency of prourokinase (proUK) injection within 6 h after symptom onset in patients with ST-elevation myocardial infarction (STEMI). A total of 1851 patients with acute myocardial infarction were enrolled to receive thrombolytic therapy with proUK. Qualifying patients were injected with 20 mg proUK intravenously followed by intravenous infusion of 30 mg proUK within 30 min. IRA was evaluated by coronary angiography at 120 min after thrombolysis. The efficacy and safety of proUK thrombolysis were analyzed in all the enrolled patients. Successful clinical reperfusion was observed in 1580 patients (85.4%). The number of leads with ST segment elevation and the amplitude of ST segment elevation were significantly reduced within 24 h after thrombolytic therapy with proUK. Eighty-three patients (4.48%) had died by the end of follow-up (7 days after thrombolysis), and the incidences of post-infarction angina, re-infarction or reocclusion, and emergency revascularization were 15.2, 4.21, and 8.27%, respectively. The most common bleeding complication was subcutaneous or mucosal bleeding and the incidence of intracranial hemorrhage was as lower as 0.32%. The fibrinolysis therapy with proUK is efficient and safe with very low rate of bleeding complications. It provides an alternative treatment options for STEMI patients especially in settings where primary PCI cannot be offered in a timely manner.

Effect of human recombinant prourokinase(rhpro-UK) on thromboembolic stroke in rats

We evaluated the efficacy and safety of human recombinant prourokinase ( rhpro-UK) on thromboembolic stroke in rats. 60 rats with thromboembolic stroke were divided into 6 groups (n = 10). The model group was given saline, the reagent groups were given rhpro-UK (5, 10, 20 × 10⁴U/kg), and positive control groups were given urokinase (UK) 10 × 10⁴U/kg and recombinant tissue plasminogen activator (rt-PA) 9mg/kg through intravenous infusion at 1.5h after embolism. And other 10 rats without occluded by autologous blood clots as the sham group were given saline. At 6h after treatment, neurological deficit score and Magnetic Resonance Imaging(MRI) including T₁WI and T₂WI sequence scanning were measured. At 24h after treatment, the brain was cut for 2,3,5-triphenyltetrazolium chloride (TTC) staining and aspectrophotometric assay to measure the infarct area and intracerebral hemorrhage after neurological deficit detection. rhpro-UK (5, 10, 20 × 10⁴ U/kg) improved neurological disorder by 39.1 ± 19.7% (n = 10, P > 0.05), 65.2 ± 14.2% (n = 10, P < 0.01) and 65.2 ± 14.2% (n = 10, P < 0.01) maximally; decreased brain lesion volume by 36.7 ± 34.8% (n = 10, P < 0.05), 77.6 ± 7.7% (n = 10, P < 0.01) and 80.5 ± 6.9% (n = 10, P < 0.01); decreased infarction area by 38.2 ± 24.0% (n = 10, P < 0.01), 73.9 ± 5.2% (n = 10, P < 0.001) and 79.7 ± 4.0% (n = 10, P < 0.001) respectively, and there were no statistics difference between rhpro-UK (5, 10, 20 × 10⁴ U/kg) and each positive groups at intracerebral hemorrhage (P > 0.05). Rhpro-UK improved the damaged neural function, decreased the extent of the disease and did not raise bleeding, had protective effects for cerebral ischemia in rats.

Therapeutic Fibrinolysis: How Efficacy and Safety Can Be Improved

Therapeutic fibrinolysis has been dominated by the experience with tissue-type plasminogen activator (t-PA), which proved little better than streptokinase in acute myocardial infarction. In contrast, endogenous fibrinolysis, using one-thousandth of the t-PA concentration, is regularly lysing fibrin and induced Thrombolysis In Myocardial Infarction flow grade 3 patency in 15% of patients with acute myocardial infarction. This efficacy is due to the effects of t-PA and urokinase plasminogen activator (uPA). They are complementary in fibrinolysis so that in combination, their effect is synergistic. Lysis of intact fibrin is initiated by t-PA, and uPA activates the remaining plasminogens. Knockout of the uPA gene, but not the t-PA gene, inhibited fibrinolysis. In the clinic, a minibolus of t-PA followed by an infusion of uPA was administered to 101 patients with acute myocardial infarction; superior infarct artery patency, no reocclusions, and 1% mortality resulted. Endogenous fibrinolysis may provide a paradigm that is relevant for therapeutic fibrinolysis.

Highly effective fibrinolysis by a sequential synergistic combination of mini-dose tPA plus low-dose mutant proUK

Results of thrombolysis by monotherapy with either tPA or proUK have not lived up to expectations. Since these natural activators are inherently complementary, this property can be utilized to a synergistic advantage; and yet, this has undergone little evaluation. ProUK is no longer available because at pharmacological concentrations it converts to UK in plasma. Therefore, a single site proUK mutant, M5, was developed to address this problem and was used in this study. Fibrinolysis was measured using preformed fluoresceinated 24 h old clots in a plasma milieu rather than by the standard automated method, because proUK/M5 is sensitive to inactivation by thrombin and activation by plasmin. The shortest 50% clot lysis time that could be achieved by tPA or M5 alone was determined: mean times were 55 and 48 minutes respectively. These bench marks were matched by 6% of the tPA monotherapy dose combined with 40% that of M5: mean lysis time 47 minutes with less associated fibrinogenolysis. Results showed that the tPA effect was limited to initiating fibrinolysis which was completed by M5 and then tcM5. Plasma C1-inhibitor inhibited fibrinogenolysis by M5, providing protection from side effects not available for proUK. In conclusion, by utilizing the complementary properties and sequential modes of action of each activator, more efficient fibrinolysis with less non-specific effects can be achieved than with traditional monotherapy. In vivo validation is needed, but in a previous clinical trial using a similar combination of tPA and proUK (5% and 50% monotherapy doses) very promising results have already been obtained.

The efficacy and safety of pharmacoinvasive therapy with prourokinase for acute ST-segment elevation myocardial infarction patients with expected long percutaneous coronary intervention-related delay

OBJECTIVES

To elucidate the efficacy and safety of pharmacoinvasive therapy by using prourokinase (prouk) in patients with ST-segment elevation myocardial infarction (STEMI).

BACKGROUND

Patients with STEMI often have long percutaneous coronary intervention (PCI)-related delays due to various reasons, which are associated with poor outcomes.

METHODS

A randomized study which enrolled patients from four centers in China was conducted. Patients were randomly assigned to accept routine primary PCI or prouk-PCI. The primary end points were the angiographic parameters, including thrombolysis in myocardial infarction (TIMI) flow grade, TIMI frame count, and myocardial blush grade. Secondary endpoints were incidence of major adverse cardiac events (MACE, defined as death from all causes, reinfarction, revascularization, or rehospitalization due to new or worsening congestive heart failure) at 30 days and 1 year.

RESULTS

One hundred and ninety-seven eligible patients were enrolled, of whom 100 were randomized to the prouk-PCI group. Significantly more patients in the prouk-PCI group than in the PCI group had an opened infarct-related artery on arrival in the catheterization laboratory (48% vs. 21%, P = 0.0002) and better TIMI frame count after PCI (33 ± 6 vs. 40 ± 10, P < 0.001). At 1-year follow-up, there was a trend that patients in the prouk-PCI group had less chances to have MACE (7.0% vs. 12.6%, P = 0.235) or be readmitted to hospital due to new or worsening congestive heart failure (1.0% vs. 4.1%, P = 0.209).

CONCLUSION

A strategy of emergent PCI preceded by fibrinolysis with prouk results in a better myocardial perfusion in infarct-related artery compared with primary PCI alone in patients with STEMI and long PCI-related delay.

Mutant prourokinase with adjunctive C1-inhibitor is an effective and safer alternative to tPA in rat stroke

A single-site mutant (M5) of native urokinase plasminogen activator (prouPA) induces effective thrombolysis in dogs with venous or arterial thrombosis with a reduction in bleeding complications compared to tPA. This effect, related to inhibition of two-chain M5 (tcM5) by plasma C1-inhibitor (C1I), thereby preventing non-specific plasmin generation, was augmented by the addition of exogenous C1I to plasma in vitro. In the present study, tPA, M5 or placebo +/- C1I were administered in two rat stroke models. In Part-I, permanent MCA occlusion was used to evaluate intracranial hemorrhage (ICH) by the thrombolytic regimens. In Part II, thromboembolic occlusion was used with thrombolysis administered 2 h later. Infarct and edema volumes, and ICH were determined at 24 h, and neuroscore pre (2 h) and post (24 h) treatment. In Part I, fatal ICH occurred in 57% of tPA and 75% of M5 rats. Adjunctive C1I reduced this to 25% and 17% respectively. Similarly, semiquantitation of ICH by neuropathological examination showed significantly less ICH in rats given adjunctive C1I compared with tPA or M5 alone. In Part-II, tPA, M5, and M5+C1I induced comparable ischemic volume reductions (>55%) compared with the saline or C1I controls, indicating the three treatments had a similar fibrinolytic effect. ICH was seen in 40% of tPA and 50% of M5 rats, with 1 death in the latter. Only 17% of the M5+C1I rats showed ICH, and the bleeding score in this group was significantly less than that in either the tPA or M5 group. The M5+C1I group had the best Benefit Index, calculated by dividing percent brain salvaged by the ICH visual score in each group. In conclusion, adjunctive C1I inhibited bleeding by M5, induced significant neuroscore improvement and had the best Benefit Index. The C1I did not compromise fibrinolysis by M5 in contrast with tPA, consistent with previous in vitro findings.

Haemostasis

When the continuity of the vascular endothelium is disrupted, platelets and fibrin seal off the defect. Haemostatic processes are classified as primary (mainly involving platelets) and secondary (mainly related to fibrin formation or blood coagulation). When the blood clot is no longer required for haemostasis, the fibrinolytic system will dissolve it. The pivotal ligand for initial platelet recruitment to injured vessel wall components is von Willebrand factor (vWF), a multimeric protein present in the subendothelium and in plasma, where it is conformationally activated by shear forces. Adhering activated platelets recruit additional platelets, which are in turn activated and form a platelet aggregate. Coagulation is initiated by a reaction, activating factors IX and X. Once critical amounts of factor Xa are generated, thrombin generation is initiated and soluble fibrinogen is converted into insoluble fibrin. Excessive thrombin generation is prevented via inhibition by antithrombin and also via downregulation of its further generation by activation of the protein C pathway. Activation of the fibrinolytic system results from conversion of the proenzyme plasminogen into the active serine proteinase plasmin by tissue-type or urokinase-type plasminogen activators. Plasmin digests the fibrin component of a blood clot. Inhibition of the fibrinolytic system occurs at the level of the plasminogen activator (by plasminogen activator inhibitors) or at the level of plasmin (by alpha2-antiplasmin). Together, these physiological processes act to maintain normal functioning blood vessels and a non-thrombotic state.

Thrombolysis vs. bleeding from hemostatic sites by a prourokinase mutant compared with tissue plasminogen activator

BACKGROUND

A single site mutant (M5) of prourokinase (proUK) was developed to make proUK less vulnerable to spontaneous activation in plasma. This was a problem that seriously compromised proUK in clinical trials, as it precluded proUK-mediated fibrinolysis at therapeutic concentrations.

METHODS AND RESULTS

After completing dose-finding studies, 12 anesthetized dogs with femoral artery thrombosis were given either M5 (2.0 mg kg(-1)) or tissue plasminogen activator (t-PA) (1.4 mg kg(-1)) by i.v. infusion over 60 min (20% administered as a bolus). Two pairs of standardized injuries were inflicted at which hemostasis was completed prior to drug administration. Blood loss was quantified by measuring the hemoglobin in blood absorbed from these sites. Thrombolysis was evaluated at 90 min and was comparably effective by both activators. Rethrombosis developed in one t-PA dog. The principal difference found was that blood loss was 10-fold higher with t-PA (mean approximately 40 mL) than with M5 (mean approximately 4 mL) (P = 0.026) and occurred at more multiple sites (mean 2.7 vs. 1.2). This effect was postulated to be related to differences in the mechanism of plasminogen activation by t-PA and M5 in which the latter is promoted by degraded rather than intact (hemostatic) fibrin. In addition, two-chain M5 was efficiently inactivated by plasma C1 inactivator, an exceptional property which helped contain its non-specific proteolytic effect.

CONCLUSIONS

Intravascular thrombolysis by M5 was accompanied by significantly less bleeding from hemostatic sites than by t-PA. This was attributed to the proUK paradigm of fibrinolysis being retained at therapeutic concentrations by the mutation.

Catheter-directed Thrombolytic Therapy for Limb Ischemia: Current Status and Controversies

Absence of urokinase from the United States market for the past 4 years has resulted in increasing experience with other plasminogen activators in catheter-directed thrombolytic therapy. The differences in the pharmacologic properties and biologic behavior of these agents may translate into clinical outcomes that are distinct. Some of these manifestations can be predicted based on the existing large clinical trials in the acute myocardial infarction literature. However, because of the fundamental differences in techniques and thrombolytic regimens, extrapolation of the coronary data may not always predict the performance of these agents in peripheral catheter-directed fibrinolysis. In this article, the current status of the available lytic agents in the treatment of limb ischemia is reviewed.

Catheter-directed Thrombolytic Therapy for Limb Ischemia: Current Status and Controversies

Absence of urokinase from the United States market for the past 4 years has resulted in increasing experience with other plasminogen activators in catheter-directed thrombolytic therapy. The differences in the pharmacologic properties and biologic behavior of these agents may translate into clinical outcomes that are distinct. Some of these manifestations can be predicted based on the existing large clinical trials in the acute myocardial infarction literature. However, because of the fundamental differences in techniques and thrombolytic regimens, extrapolation of the coronary data may not always predict the performance of these agents in peripheral catheter-directed fibrinolysis. In this article, the current status of the available lytic agents in the treatment of limb ischemia is reviewed.

Fibrinolysis: an unfinished agenda

There has been a recent decline in interest in fibrinolysis, suggesting that its physiological basis is sufficiently understood and that therapeutic thrombolysis has reached its limit. The importance of the subject has not diminished since cardiovascular disease is now a leading health problem even in developing countries. Certain highlights and inconsistencies are reviewed. The clinical trials of tissue plasminogen activator (t-PA) revealed a major discrepancy between its fibrinolytic efficacy and its clinical benefit (the 't-PA paradox') that is unexplained. Dose-finding studies also showed that the fibrinolytic efficacy of t-PA required significant nonspecific plasminogen activation. Furthermore, the longstanding belief that t-PA is responsible for physiological fibrinolysis and urokinase-type PA (u-PA) for pericellular plasminogen activation is belied by extensive experimental animal data, but these findings have had little impact on traditional thinking. As a result, the mechanisms responsible for the u-PA paradigm of fibrinolysis have received little attention. Clinical experience with pro-u-PA remains limited and most clinical trials have used infusion rates at which pro-u-PA is largely converted systemically to urokinase. This is due to the unanticipated instability of pro-u-PA in plasma at pharmacological concentrations. Insufficient understanding of basic mechanisms of fibrinolysis has handicapped the design of chimeric or mutant activators. It is submitted that physiological fibrinolysis remains to be better defined, and that it is premature to conclude that therapeutic thrombolysis will be inevitably accompanied by side effects that undermine this method of inducing reperfusion.

An efficient system for production of recombinant urokinase-type plasminogen activator

A system was developed to produce recombinant urokinase-type plasminogen activator in Escherichia coli. The urokinase-type plasminogen activator was produced with a 6 x His-tag at the C-terminus which was shown to have the same activity, after refolding, as the wild-type protein. Purification of the recombinant protein to homogeneity (95%) was possible by one-step affinity chromatography under denaturing conditions. As a result, proteolysis by bacterial proteases during purification was avoided. A higher refolding efficiency (40%) and a higher total recovery yield (25%) of the recombinant protein were obtained by this method.

Plasma resistance to activated protein C regulates the activation of coagulation induced by thrombolysis in patients with ischaemic heart disease

OBJECTIVE

To determine whether there was a relation between plasma resistance to activated protein C and the coagulation activation induced during thrombolysis with 100 mg alteplase in 25 patients with acute ischaemic heart disease.

METHODS

Blood samples were collected before (t = 0 h), during (t = 2.25 h), and after (t = 4 h, t = 12 h, and t = 24 h) thrombolysis to examine the relation between baseline activated protein C resistance ratio and markers of coagulation activation-that is, thrombinantithrombin III-complexes and prothrombin fragment 1 + 2 generated during thrombolysis.

RESULTS

There was a negative correlation between activated protein C resistance ratio and area under the curve of thrombin-antithrombin III-complexes (rs = - 0.60; P < 0.003) and there was a trend to a negative correlation between activated protein C resistance ratio and area under the curve of prothrombin fragment 1 + 2 (rs = - 0.37; P = 0.07). This accorded with the negative correlation between activated protein C resistance ratio and the peak value of thrombin-antithrombin III-complexes (rs = - 0.55; P < 0.005) and between activated protein C resistance ratio and the peak value of prothrombin fragment 1 + 2 (rs = - 0.42; P < 0.04). Components of the protein C/S system or known inhibitors of activated protein C may influence the activated protein C resistance ratio. There were no associations between the activated protein C resistance ratio and protein C, protein C inhibitor, or plasminogen activator inhibitor type-1, whereas there was a trend to a negative correlation between activated protein C resistance ratio and protein S.

CONCLUSIONS

The results indicate that plasma resistance to activated protein C may be one of the main mechanisms regulating the activation of coagulation induced by thrombolysis. This study suggests that it may be possible to single out individuals with a high risk of reocclusion before the start of thrombolytic therapy.

Fibrinolytic mechanism, biochemistry, and preclinical pharmacology of recombinant prourokinase

The purpose of this review is to provide a biochemical characterization of recombinant prourokinase (r-ProUK [ABT-187]), including a description of its clot-specific fibrinolytic mechanism. In addition, the preclinical data will be briefly reviewed, demonstrating the efficacy of r-ProUK as a potent therapeutic plasminogen activator. r-ProUK was purified to homogeneity from the culture medium of SP2/0 mouse hybridoma cells. The fibrinolytic potency of r-ProUK was characterized by both in vitro clot lysis experiments in human plasma and a canine femoral artery thrombosis model. In the in vitro clot lysis system, with use of clots prepared from fresh frozen human plasma, r-ProUK exhibits a lag phase to the onset of lysis and a concentration-dependent threshold effect due to the presence of the inhibitors alpha 2-antiplasmin and plasminogen activator inhibitor (PAI-1). Effective clot lysis can be achieved without degradation of the fibrinogen in the surrounding plasma. Over a dose range of 50,000-220,000 IU, the canine femoral artery thrombosis model shows a dose-dependent relationship for r-ProUK and effective clot lysis. The lytic activity of r-ProUK is significantly enhanced in this model by the concomitant administration of heparin as an adjunctive agent for thrombolytic treatment. Fibrinogen, plasminogen, and alpha 2-antiplasmin levels in the systemic circulation were unaltered during the 30-minute infusion period and a 4-hour observation period, in which 85% lysis was achieved with r-ProUK (100,000 IU) and heparin. Moreover, restoration of blood flow in the previously fully occluded femoral artery was achieved within minutes of the start of the r-ProUK infusion. The experimental findings presented here are consistent with the clot-specific fibrinolytic mechanism of r-ProUK. Effective clot lysis can be achieved without alteration of the systemic coagulation and fibrinolytic parameters.

Sequential combination thrombolytic therapy for acute myocardial infarction: results of the Pro-Urokinase and t-PA Enhancement of Thrombolysis (PATENT) Trial

OBJECTIVES

The present study was designed to test the efficacy and safety of a sequential combination of recombinant tissue-type plasminogen activator (rt-PA) and pro-urokinase in patients with acute myocardial infarction.

BACKGROUND

Efforts continue to identify a thrombolytic regimen that induces rapid, complete and sustained coronary artery patency in acute myocardial infarction. The two endogenous plasminogen activators rt-PA and pro-urokinase have been shown experimentally to induce fibrinolysis by sequential and complementary mechanisms. As a result, certain combinations of these activators have been found to be synergistic in vitro and in vivo.

METHODS

In a multicenter observational study with core facilities for angiographic and laboratory analysis, 101 patients with acute myocardial infarction were enrolled and given a low dose bolus of rt-PA (5 to 10 mg) followed by a 90-min infusion of pro-urokinase (40 mg/h). All patients received intravenous heparin and oral aspirin. Coronary angiography was performed in all patients at 90 min.

RESULTS

Angiography at 90 min showed the infarct-related artery to be patent (Thrombolysis in Myocardial Infarction [TIMI] grade 2 or 3 flow) in 77% of patients, and 60% achieved TIMI grade 3 flow. At one center, angiography was repeated at 24 h to detect a possible reocclusion. All 28 patients with a patent infarct-related artery at 90 min had patency at 24 h (82% achieved TIMI grade 3 flow). Treatment was well tolerated, with bleeding complications essentially confined to arterial puncture site hematomas. There was only one in-hospital death.

CONCLUSIONS

A sequential combination of low dose rt-PA and reduced-dose pro-urokinase produced a high TIMI 3 patency rate, was well tolerated and was associated with a low reocclusion rate.