Effect of clopidogrel treatment on stress-induced platelet activation and myocardial ischemia in aspirin-treated patients with stable coronary artery disease.

Stress may counteract responses to antiplatelet drug treatment. We investigated if adding clopidogrel to aspirin treatment could attenutate stress-induced platelet activation and myocardial ischemia in patients with coronary artery disease (CAD). Thirty-one male patients with documented CAD-treated with aspirin (75-160 mg daily) were randomized to co-treatment with clopidogrel (n = 16) or placebo (n = 15). A symptom-limited exercise test and 48-hour (h) Holter monitoring were performed before and after two weeks of double-blind treatment. Platelet function was assessed by flow cytometry and impedance aggregometry in whole blood. Exercise-induced and ambulatory ischemia was assessed from electrocardiographic (ECG) recordings. Clopidogrel treatment inhibited ADP-induced platelet P-selectin expression by 64% (22-87%), and attenuated the P-selectin response to thrombin (p < 0.001), and platelet aggregation induced by low-dose collagen (p < 0.01). Exercise ( approximately 110W) increased heart rate similarly, and caused approximately 1.8 mm ST-segment depression both before and after treatment. Exercise caused platelet activation, i.e. increased circulating activated single platelets and platelet-platelet aggregates, enhanced the in-vitro responsiveness to ADP or thrombin stimulation, and increased platelet-leukocyte aggregation. Clopidogrel inhibited ADP-induced platelet activation to a similar relative degree at rest and during exercise, but did not attenuate the platelet activating effect of exercise. Addition of clopidogrel to aspirin treatment did not attenuate either ambulatory or exercise-induced ischemia. In conclusion, adding clopidogrel to aspirin treatment inhibited platelet activation by both ADP, thrombin and collagen in vitro, but did not influence the prothrombotic responses to exercise. Intensified antiplatelet treatment did not reduce ECG signs of either exercise-induced or ambulatory myocardial ischemia.

Dose- and time-dependent antiplatelet effects of aspirin.

Aspirin is widely used, but dosages in different clinical situations and the possible importance of "aspirin resistance" are debated. We performed an open cross-over study comparing no treatment (baseline) with three aspirin dosage regimens--37.5 mg/day for 10 days, 320 mg/day for 7 days, and, finally, a single 640 mg dose (cumulative dose 960 mg)--in 15 healthy male volunteers. Platelet aggregability was assessed in whole blood (WB) and platelet rich plasma (PRP). The urinary excretions of stable thromboxane (TxM) and prostacyclin (PGI-M) metabolites, and bleeding time were also measured. Platelet COX inhibition was nearly complete already at 37.5 mg aspirin daily, as evidenced by >98% suppression of serum thromboxane B2 and almost abolished arachidonic acid (AA) induced aggregation in PRP 2-6 h after dosing. Bleeding time was similarly prolonged by all dosages of aspirin. Once daily dosing was associated with considerable recovery of AA induced platelet aggregation in WB after 24 hours, even after 960 mg aspirin. Collagen induced aggregation in WB with normal extracellular calcium levels (hirudin anticoagulated) was inhibited <40% at all dosages. TxM excretion was incompletely suppressed, and increased <24 hours after the cumulative 960 mg dose. Aspirin treatment reduced PGI-M already at the lowest dosage (by approximately 25%), but PGI-M excretion and platelet aggregability were not correlated. Antiplatelet effects of aspirin are limited in WB with normal calcium levels. Since recovery of COX-dependent platelet aggregation occurred within 24 hours, once daily dosing of aspirin might be insufficient in patients with increased platelet turnover.

Marked increase of fibrin gel permeability with very low dose ASA treatment.

INTRODUCTION: Previous data from our group show that acetylsalicylic acid (ASA), especially at low dose, alters the network structure of fibrin, rendering it more porous. The present study was performed to extend the dose-response curve for effects of ASA on fibrinogen clotting properties and to examine the variability of these effects during a 24-h dose interval. MATERIAL AND METHODS: Fifteen healthy volunteers received ASA 37.5 mg daily (low dose) for 10 days and, after an interval of 2 weeks, 320 mg daily (medium dose) for 7 days, followed by a single bolus dose of 640 mg (high dose). The plasma fibrinogen concentrations were determined and the permeability of fibrin gels (Ks) was assayed with a recently modified flow measurement technique. Three-dimensional (3D) structure of the fibrin network was studied by confocal microscopy. RESULTS: ASA therapy did not influence fibrinogen concentrations. Compared to baseline, Ks levels were increased by 21% and 31% in samples during medium and high dose ASA treatment (p<0.01) and, even more markedly, by 44% (p<0.0001) with very low dose ASA treatment (p<0.01, compared to the higher doses). The effects of ASA on fibrin gel permeability were stable over a 24-h dose interval. During ASA treatment, thicker fibrin fibers and larger network pores with irregular structure were observed by confocal microscopy. CONCLUSIONS: Acetylation of lysine residues in the fibrinogen molecule may explain the alterations in its clotting property, resulting in altered fibrin gel permeability. The mechanism(s) behind the greater increase in fibrin gel permeability and alterations in 3D structure of the fibrin network observed, and why this phenomenon is more pronounced at low compared to intermediate or high ASA doses, deserve further investigations.