Silke Kazmaier

Thrombolytic therapy in acute myocardial infarction : Comparison of procoagulant effects of streptokinase and alteplase regimens with focus on the Kallikrein system and plasmin

BACKGROUND Thrombolytic therapy in patients with acute myocardial infarction (AMI) is hampered by procoagulant effects. In vitro studies have indicated that plasmin stimulation activates the kallikrein-contact-phase system, resulting in thrombin activation. This prospective comparative study was designed to examine the procoagulant effects of streptokinase or alteplase in AMI. METHODS AND RESULTS Sixty-one patients with AMI received 1.5 million U of streptokinase or front-loaded alteplase (up to 100 mg) and systemic heparin. Twenty-four patients with AMI and no thrombolytic therapy and 30 control subjects were examined for comparison. Molecular markers of thrombin, plasmin activation, and coagulation activities were determined before therapy and serially for up to 10 days. Moderate thrombin (initial thrombin-antithrombin [TAT] complex 18+/-5 versus 4+/-0.3 microg/L, P<0.05) and kallikrein (up to 45+/-4 versus 30+/-1 U/L at 3 hours, P<0.01) activation occurs in patients with AMI. D-Dimers are increased (P<0.01), and plasmin is stimulated (P<0.01). Streptokinase and alteplase increase TAT to 50+/-17 and 51+/-18 microg/L at 3 hours and to 50+/-17 and 33+/-14 microg/L at 6 hours, respectively (P<0.01). Kallikrein activity is elevated (P<0. 01) to 76+/-5 and 71+/-7 U/L at 3 hours and 64+/-6 and 47+/-5 U/L by streptokinase and alteplase, respectively, at 6 hours. Reductions in fibrinogen and increases in D-dimers and plasmin-antiplasmin complexes are more marked (P<0.05 and 0.01) after streptokinase versus alteplase. Correlations were found among TAT, kallikrein activity, and plasmin activation (P<0.01). CONCLUSIONS The data indicate a more marked procoagulant action of the streptokinase regimen compared with front-loaded alteplase, thus supporting the hypothesis of a plasmin-mediated kallikrein activation with consecutive procoagulant action in vivo.

Comparison of C-reactive protein and terminal complement complex in patients with unstable angina pectoris versus stable angina pectoris

Elevated C-reactive protein (CRP) can identify patients with coronary artery disease who are prone to future acute events. We investigated whether elevated CRP is related to the activation of the terminal complement cascade in 66 patients with unstable angina pectoris (UAP), in 45 patients with stable angina pectoris, and in 42 controls. CRP, additional acute phase reactants, the terminal complement complex (sC5b-9), leukocytes, and troponin T were measured. In 47 patients with UAP the CRP values were regarded as elevated (>0.3 mg/dl). In patients with UAP and elevated CRP, the plasma levels of sC5b-9 were markedly higher than in patients with UAP and lower CRP (245 +/- 14 vs 188 +/- 19 ng/ml, p <0.02) and in patients with stable angina pectoris with slightly (0.4 +/- 0.1 mg/dl) increased CRP (sC5b-9 173 +/- 21 vs 130 +/- 7 ng/ml [controls; p <0.05]). A further acute phase reaction was present only in patients with UAP and elevated CRP already on admission (p <0.01). sC5b-9 was not related to troponin release. Thus, elevated CRP levels are associated with activation of the plaque destabilizating terminal complement system in patients with UAP during the acute phase reaction. This may explain the prognostic value of CRP in acute coronary syndromes (ACS).

Inotropic Effects of Endothelin-1 Interaction With Molsidomine and With BQ 610

-In vivo studies could not detect a positive inotropy of endothelin (ET)-1 as described in in vitro experiments. ET-induced direct positive inotropy, which seems to be mediated by ETB receptors, may be antagonized in vivo by an indirect cardiodepressive effect owing to an ET-induced coronary vasoconstriction via ETA receptors. This study compares the effects of a dose of 1 nmol/kg ET-1 alone on myocardial contractility and myocardial energy metabolism with the effects of 1 nmol/kg ET-1 after pretreatment with 5 mg/kg molsidomine or with 100 microg/kg of the ETA receptor antagonist BQ 610. We investigated the effects of ET-1 versus saline controls in open-chest rats. In addition to measurements in the intact circulation, myocardial function was examined by isovolumic registrations independent of peripheral vascular effects. We also studied the effect of ET-1 on myocardial high-energy phosphates. Pretreatment with molsidomine and BQ 610 attenuated the ET-induced reduction of cardiac output (ET-1: -62%; molsidomine+ET-1: -47%; BQ 610+ET-1: -27% different from controls). After a transient initial vasodilation, ET-1 raised total peripheral resistance (ET-1: +190%; molsidomine+ET-1: +171%; BQ 610+ET-1: +89%). BQ 610 was more effective in preventing ET-induced vasoconstriction. The increase of isovolumic peak first derivative of left ventricular pressure (ET-1: -2%; molsidomine+ET-1: +16%; BQ 610+ET-1: +19%) after pretreatment with molsidomine or BQ 610 indicates that these drugs unmask the positive inotropy of ET-1. ET-induced myocardial ischemia was abolished by molsidomine and BQ 610. Pretreatment with molsidomine or blockade of ETA receptors by BQ 610 can unmask the positive inotropy of ET-1 by preventing ET-induced myocardial ischemia. The positive inotropic effect of ET-1 seems to be mediated by ETB receptors.

Fibrin specificity and procoagulant effect related to the kallikrein-contact phase system and to plasmin generation with double-bolus reteplase and front-loaded alteplase thrombolysis in acute myocardial infarction.

This study was undertaken to compare the effects of reteplase and alteplase regimens on hemostasis and fibrinolysis in acute myocardial infarction (AMI). Thrombolytic treatment in patients with AMI is hampered by paradoxical procoagulant effects that favor early reocclusion. In vivo data comparing this effect and the fibrin specificity of double-bolus reteplase and front-loaded alteplase regimens are not available. In a prospective, randomized study, 50 patients with AMI were either treated with double bolus (10 + 10 U) reteplase or with front-loaded alteplase (up to 100 mg) within 6 hours of symptom onset. Thirty apparently healthy persons served as controls. Molecular markers of coagulation and fibrinolysis were serially examined for up to 5 days. Paradoxical thrombin activation at 3 hours after initiation of therapy was comparable between reteplase and alteplase. Reteplase (65 +/- 5 U/L) and alteplase (72 +/- 8 U/L) caused significantly elevated kallikrein activity at 3 hours after adminstration (p <0.01 vs controls 30 +/- 1 U/L). Fibrin specificity was less for reteplase (p <0.05) with a decrease in fibrinogen at 3 hours to 122 +/- 27 mg/dl versus 224 +/- 28 mg/dl for alteplase (p <0.01 and p <0.05 vs controls). D-Dimer levels at 3 hours were higher (p <0.05) after reteplase (5,459 +/- 611 ng/ml) versus alteplase (3,445 +/- 679 ng/ml) (both p <0.01 vs controls 243 +/- 17 ng/ml). Plasmin generation (plasmin-antiplasmin complexes) was significantly (p <0.01) increased at 3 hours with both regimens to 27,079 +/- 3,964 microg/L (reteplase) and 19,522 +/- 2,381 microg/L (alteplase). The data from 3 hours after start of thrombolytic therapy proved less marked fibrin specificity of the reteplase regimen (in vivo) compared with front-loaded alteplase. Both regimens have a moderate procoagulant effect without differences in activation of the kallikrein system.

Effect of endothelin-1 and its combination with adenosine on myocardial contractility and myocardial energy metabolism in vivo.

Contradictory results have been reported about the inotropic effects of the vasoconstrictive peptide endothelin-1 (ET-1). In contrast to in vitro experiments, in vivo studies could not demonstrate a positive inotropy of ET-1. It may be possible, that the direct positive inotropic effect of ET-1 observed in in vitro studies is counterbalanced in vivo by an indirect negative inotropy due to its coronar-constrictive effect. This study examined the hemodynamic and inotropic effects of 2500 ng ET-1/kg without and after pretreatment with the vasodilating nucleoside adenosine (0.5, 2.0, 5.0 mg ADO/kg/min). Data were compared with NaCl controls in open-chest rats during and after a 7-min infusion. Besides measurements in the intact circulation isovolumic measurements were carried out for quantification of myocardial contractility independently of peripheral vascular effects. We further examined the effect of ET-1 and its combination with 2.0 mg ADO/kg/min on myocardial high-energy phosphates (ATP, AMP, ADP, creatine phosphate). ET-1 causes a strong and longlasting vasoconstriction (+ 186% v preinfusion values), which is dose-dependently antagonized in part by ADO (+ 109%, + 136%, + 60%). While the maximum of the isovolumic LVSP (peak LVSP) and the corresponding dP/dtmax (peak dP/dtmax) were unchanged with sole ET-1 (peak LVSP: +5%, peak dP/dtmax: -2%), these indexes of myocardial contractility were increased after pretreatment with ADO (peak LVSP: +11%, +13%, +4%; peak dP/dtmax: +9%, +20%, +10%) indicating a positive inotropic effect of ET-1.(ABSTRACT TRUNCATED AT 250 WORDS)

Absence of paradoxical thrombin activation by fibrin-specific thrombolytics in acute myocardial infarction: comparison of single-bolus tenecteplase and front-loaded alteplase.

OBJECTIVES Thrombolytic therapy in patients with acute myocardial infarction is hampered by bleeding complications and procoagulant effects favoring early reocclusion. TNK-tPA was shown in vitro to have considerable fibrin specificity. We investigated the effects of tenecteplase (TNK-tPA) and alteplase (rt-PA) on the haemostasis and fibrinolytic system. METHODS AND RESULTS We enrolled 30 patients with AMI into the study. Twenty patients received front-loaded rt-PA up to 100 mg; 10 patients were given TNK-tPA in a single bolus up to 50 mg. All patients received aspirin and intravenous heparin. During the first 2 days, the following parameters were repetitively determined: thrombin-antithrombin III complexes (TAT), antithrombin III (ATIII), prothrombin fragment F 1 + 2 (F 1 + 2), kallikrein-like activity (KK), activated factor XII (FXIIa), plasmin alpha 2-antiplasmin complexes (PAP), fibrinogen, D-dimers (DD), tissue-type plasminogen activator (t-PA). A total of 75 healthy persons served as control group. TAT increased significantly after rt-PA but not after TNK-tPA (3 h: 38.1 +/- 29.4 versus 10.5 +/- 4.2 microg/l; p < 0.01), indicating paradoxical thrombin activation. F 1 + 2 increased transiently after rt-PA but not after TNK-tPA. Fibrinogen was significantly lower after rt-PA versus TNK-tPA (3 h: 163 +/- 27 versus 380 +/- 54 mg/dl; p < 0.05). KK activities in the rt-PA group were significantly (p < 0.01) increased over 48 h versus TNK-tPA. PAP and D-dimers were lower over the time course of 48 h in the tenecteplase group versus rt-PA. CONCLUSIONS This study indicates that tenecteplase has higher fibrin specificity not only in vitro but also in vivo versus alteplase. TNK-tPA consecutively has no paradoxical systemic procoagulant effect due to the lower extent of activation of the kallikrein-factor XII system than alteplase.

Relationship Between Minor Myocardial Damage and Inflammatory Acute-Phase Reaction in Acute Coronary Syndromes

AbstractBackground: In severe acute coronary syndromes (ACS) elevation of markers of inflammation and acute phase reaction (APR) like C-reactive protein (CRP) as well as a release of troponin have been reported.Using a high sensitivity troponin T (TnT) test we investigated whether an APR occurs in ACS only in the presence of ischemic myocardial damage. Methods: In 85 patients with ACS C-reactive protein (CRP), serum amyloid A (SAA), fibrinogen, thrombin antithrombin III complexes (TAT) and kallikrein were determined vs. high sensitive TnT (≥0.02 ng/ml) initially and 2 d later vs. 45 patients with stable angina pectoris and 42 controls. Results: In stable angina pectoris, markers of inflammation and coagulation were slightly elevated (p < 0.05). Initially in ACS elevations of CRP to 1.2 ± 0.3 mg/dl, SAA to 4.8 ± 2.6 mg/dl and fibrinogen to 448 ± 21 mg/dl (all p < 0.01 vs. controls) were found followed by a significant APR (p < 0.01).In the subgroup of TnT positive ACS patients, an APR with increased CRP (4.1 ± 1.3 mg/dl), SAA (20.4 ± 8.3 mg/dl), and fibrinogen (641 ± 45 mg/dl) was detectable (all p < 0.05 vs. TnT negative patients). In contrast, patients without TnT release showed APR markers comparable to patients with stable angina pectoris. Conclusion: Our findings demonstrate an association between myocardial injury in ACS and acute phase reaction as evidenced by several molecular markers. A highly sensitive TnT-test identified myocardial inury in about all patients with APR while a standard TnT cut-off (0.1 ng/ml) missed 32% of these patients. Thus, the APR in patients with ACS is strongly associated with at least minor ischemic myocardial damage and prior findings of an APR independent from myocardial injury are probably based on less sensitive troponin tests.

Effects of positive inotropic stimulation on postischemic myocardium with graded dysfunction

OBJECTIVE To investigate the effects of moderate prolonged and of maximum short-term positive inotropic stimulation of postischemic myocardium as a function of the severity of stunning. METHODS Stunned isolated rat hearts (n = 116) after 30 min and 45 min of ischemia were stimulated with dopamine to raise systolic function (double product) back to control levels. In the isovolumetrically beating hearts, left ventricular developed pressure, double product, dp/dtmax, coronary flow, and myocardial oxygen consumption were determined during steady-state conditions. After maximum stimulation the contractile reserve was examined. Measurements of adenine nucleotides (n = 47) and electron microscopy (n = 9) were made. RESULTS 30 min ischemia resulted in moderate postischemic dysfunction (LVP 81 +/- 3%; P < 0.05). After 45 min ischemia, function was more severely reduced (LVP 66 +/- 5%; P < 0.01). Coronary flow tended to be lower after ischemia. Myocardial oxygen consumption was not reduced in parallel with the dysfunction. Adenine nucleotides were gradually reduced after ischemia (ATP: 2.5 +/- 0.2 and 1.2 +/- 0.1 vs. 4.2 +/- 0.2 mumol/gww; P < 0.01). Contractile reserve also decreased in relation to the previous ischemic injury (after 45 min ischemia max. LVP 105 +/- 10% vs. max. LVP 152 +/- 8% in controls, P < 0.01). Prolonged stimulation did not result in further reduction in adenine nucleotides and function. CONCLUSIONS Contractile reserve is decreased in postischemic myocardium in parallel with the previous ischemic burden. Depending on the degree of contractile dysfunction a disturbed function-flow-oxygen consumption relation is present. Prolonged stimulation of stunned myocardium with dopamine back to the control level of function has no harmful short-term effects, indicating sufficient mitochondrial energy generation.

Combined thrombolysis with abciximab favourably influences platelet-leukocyte interactions and platelet activation in acute myocardial infarction.

Background: In patients with acute myocardial infarction (AMI), activated platelets and altered haemostatic/fibrinolytic systems with and without thrombolytic therapy are known. Platelets thereby interact with neutrophils, stimulated endothelial cells and with monocytes leading to adverse effects on further myocardial damage. Thrombolysis in these patients is still hampered by procoagulant effects favoring early reocclusion. The additional treatment with a GPIIb/IIIa antagonist aimed to minimize early reocclusion thus improving the present therapeutic regimen.Methods: In 38 patients with AMI, we investigated the effects of a thrombolytic regimen with half reteplase (r-PA) dose plus abciximab vs. full dose r-PA on membrane-bound adhesion molecules (CD41, CD42b, CD40, CD40L) expressed on platelets, neutrophils and monocytes as well as on soluble platelet-selectin as interaction and activation markers of these cells.Results: The combination group had significantly (p < 0.05) lower sP-selectin levels over 48 h vs. the group treated with full dose r-PA. After 3 h, the percentage of CD41 and CD42b positive monocytes and granulocytes as well as the percentage of CD40 positive granulocytes and the percentage of CD40L positive monocytes markedly (p < 0.01, p < 0.05) decreased in the combination group vs. data at admission compared with the r-PA group indicating less leukocyte-patelet adhesion.Conclusions: The thrombolytic regimen with half dose r-PA and abciximab had a benefical influence on platelet activation and induced a more marked decrease of platelet-monocyte, and in part, platelet-granulocyte aggregates compared with the r-PA regimen. This could contribute to a probably lesser monocyte activation state with favourable effects on monocyte-endothelial adhesion and a consecutively possible influence of myocardial damage, a reduction of the additionally acute local inflammatory processes and a reduction of adherence of platelet-granulocyte aggregates to subendothelium.

Effects of endothelin-1 and IRL 1620 on myocardial contractility and myocardial energy metabolism

Summary: In contrast to in vitro studies, experiments in intact animals could not detect a positive inotropic effect of endothelin-1 (ET-1). We presumed that the ET-induced direct positive inotropy is antagonized in vivo by an indirect cardiodepressant effect due to a mainly ETA-mediated and ET-induced coronary constriction, with consequent myocardial ischemia. To confirm this hypothesis we examined in thoracotomized rats the effects of a nonselective activation of ETA and ETB receptors by 1 nmol/kg ET-1 with and without the vasodilator adenosine (2.0 mg/kg/min), and the effects of a selective activation of ETB receptors by the ETB agonist IRL 1620 (2 nmol/ kg) on myocardial contractility and energy metabolism (ATP, ADP, AMP). In addition to recordings in the intact circulation, isovolumic measurements (peak LVSP, peak dP/dtmax) were performed for quantification of myocardial contractility. ET-1 had no positive inotropic effect(peak dP/dtmax −2% vs. control, n.s.) due to a marked vasoconstriction with a consequent fall in the myocardial ATP content (- 17%; p < 0.01). Adenosine antagonized the ET-induced vasoconstriction in part, normalized myocardial energy metabolism (ATP −7%), and thus unmasked the positive inotropic effect of ET-1 (peak dP/ dtmax +20%; p < 0.01). Selective activation of ETB receptors by IRL 1620 had only a small vasoconstrictor effect, which did not produce myocardial ischemia (ATP + 10%; n.s.) and thus caused a positive inotropic effect in vivo (peak dP/dtmax +22%; p < 0.01). The positive inotropic effect of ET-1 is not detectable in vivo as its marked, mainly ETA-mediated, vaso- and coronary constriction causes myocardial ischemia that thus produces an indirect negative inotropic effect.