Variability in aggregometry response before and after initiation of clopidogrel therapy.

BACKGROUND: Evaluation of clopidogrel therapy by in vitro methods has limitations which may be of clinical importance. We wanted to explore the variability in aggregometry response in aspirin sensitive patients before and after initiation of clopidogrel therapy. METHODS: ADP 9.37 microM, AA 1.2mM and TRAP 25 mM stimulated light transmissions aggregometry (LTA) were performed twice before (Exams 1 and 2; 3 weeks apart)-and within one year after-initiation of clopidogrel therapy (Exam 3) in 79 patients treated with PCI. Repeated ADP aggregometry was also performed in 16 healthy volunteers in order to estimate LTA measurement error. RESULT: Inter-individual differences in ADP aggregation e.g. at Exam 1 were substantial (range 17-77%, SD 15.8%). Intra-individual changes between Exams 1 and 2 were significant (-27 to +36%, SD 14.6%, p<0.05). Inter-individual differences at Exam 3 (on clopidogrel treatment) were larger than expected from Exams 1 and 2 (p<0.01). AA aggregation was the same before and during clopidogrel treatment. In controls, inter-individual differences were smaller at ADP 10 than at ADP 5 microM. CONCLUSIONS: Inter-individual differences in ADP aggregation were significant both before and during clopidogrel therapy, and there were significant intra-individual variations over time. Therefore, prediction of aggregometry response before or during clopidogrel therapy based on single tests may be unreliable. Inter-individual differences in healthy controls are smaller at high concentrations of ADP, and comparisons of aggregometry response should be performed with caution unless ADP concentrations are standardized.

Release of soluble CD40 ligand after platelet activation: studies on the solubilization phase.

sCD40L is released from platelets as a soluble, proteolyzed form of CD40 ligand (CD40L; CD154) which is exposed on the surface after platelet activation. Ethylenediaminetetraacetate (EDTA), the CD40-blocking antibody G28-5, and GPIIb-IIIa antagonists are known to inhibit the solubilization when added prior to activation. It is assumed that the surface expression of CD40L is a result of a separate fast process and that the solubilization is secondary to this. The release of sCD40L in this solubilization phase has been studied; that is, inhibitory substances were added to platelet-rich plasma (PRP) 10 min after addition of the activation agonist (100 microM SFLLRN), at which time the secretion phase was over as tested with beta-thromboglobulin (beta-TG). G28-5 (10 microg/ml) and EDTA (5 mM) inhibited the solubilization phase which did not require the presence of an activation agonist. Prostaglandin E1 (PGE1; 20 microM) and cytochalasin D (C8273; 60 and 100 microM), which exert their effects intracellularly, inhibited the solubilization even in the presence of abciximab (ReoPro; 40 microg/ml). The intracellular effect was not related to CD40L-containing microparticles as demonstrated by ultracentrifugation. Intracellular alkalinization by preincubation of PRP with 20 mM NH4Cl for 60 min resulted in a small but reproducible reduction in the amount of extracellular sCD40L. SFLLRN induced solubilization of CD40L also from the platelets of a Glanzmann's thrombasthenia patient lacking GPIIb-IIIa, albeit at a lower rate than from normal platelets, and fibrinogen enhanced the solubilization from washed normal platelets. The data show that the solubilization of CD40L not only depends on reactions on the platelet surface but also that intracellular structures are engaged even during the solubilization phase.