Impact of diabetes on immature platelets fraction and its relationship with platelet reactivity in patients receiving dual antiplatelet therapy

Contrasting data have been reported so far on the role of reticulated platelets in suboptimal response to antiplatelet therapies. In particular, still unexplored is whether they may contribute to explain the higher risk of thrombotic complications observed in diabetic patients. Aim of the present study was to evaluate the impact of diabetes on the levels of reticulated platelets and its relationship with high residual on-treatment platelet reactivity (HRPR) in patients receiving dual antiplatelet therapy. In patients treated with ASA (100–160 mg) and clopidogrel (75 mg daily) or ticagrelor (90 mg twice a day) platelet reactivity and the reticulated platelets fraction (immature platelets fraction, IPF) were assessed at 30–90 days post-discharge for an acute coronary syndrome or elective PCI. Aggregation was assessed by multiple-electrode aggregometry. We included 386 patients, 158 (40.9 %) diabetics. The percentage of IPF was similar in diabetic and non diabetic patients, both at baseline (3.5 ± 2.5 vs 3.6 ± 2.7 %, p = 0.91) and at 30–90 days re-assessment (3.3 ± 2.1 vs 3.5 ± 2.5 %, p = 0.30), with diabetes not emerging as an independent predictor of IPF above III tertile (adjusted OR [95 %CI] = 0.58 [0.30–1.09], p = 0.10). Diabetic patients displayed an enhanced platelet reactivity and a higher rate of HRPR with ADP antagonists (32.8 vs 22.5 %, p = 0.009). However, no association was found between the percentage of IPF and platelet function (r = ?0.004; p = 0.95 for ASPI test, r = ?0.04; p = 0.59 for ADP-mediated aggregation), or the rate of HRPR for ADP antagonsist across IPF tertiles. Results were similar for diabetics both receiving clopidogrel and ticagrelor. Diabetic patients display a higher platelet reactivity and suboptimal response to ADP-antagonists. However, the rate of reticulated platelets is neither influenced by diabetic status nor associated with an increased platelet reactivity among diabetic patients receiving dual antiplatelet therapy for a recent acute coronary syndrome or PCI.     

Platelet responsiveness to clopidogrel in patients with coronary syndrome. Comparison of platelet aggregation induced by ADP and flow cytometric analysis of intraplatelet VASP phosphorylation

Although antiplatelet therapy with ASA-clopidogrel reduces the risk of cardiovascular episodes after PCI, a substantial number of events occur during follow-up. Sustained platelet reactivity under dual antiplatelet therapy was recently associated with increased risk of recurrent atherothrombotic events after PCI. Whereas it appears significant to determine clopidogrel responsiveness, the accurate platelet function assay is still under investigation. OBJECTIVES: (i) to determine the proportion of "low-responders" or "resistants" patients during coronary syndrome (ii) to identify determinants of interindividual variability response to clopidogrel (iii) to compare aggregometry and VASP phosphorylation measured by flow cytometry. Patients were treated by clopidogrel (300 mg loading dose and 75 mg maintenance dose) and ASA (160 mg) (N=27). Additional treatment by GPIIbIIIa antagonists was given to high-risk patients (N=9). Platelet function was monitored by ADP aggregometry (5, 10, 20 microM) and VASP phosphorylation before any treatment by clopidogrel (d0) and at least five days after (d5). The platelet reactivity index (PRI), expressed as percentage, is the difference in VASP fluorescence intensity between resting (+ PGE1) and activated (ADP) platelets. At d5, low responsiveness to clopidogrel was defined by either (i) a PRI > 67.3% corresponding to the mean value -2SD measured in untreated patients (dO) (ii) or an absolute change (delta d0-d5) in aggregation (ADP 10 microM) < to 30%. RESULTS: PRI, platelet aggregometry to ADP was significantly reduced following clopidogrel treatment (P < 0.01). A wide inter-individual variability to clopidogrel was observed at d5 (PRI from 11 to 83%). Whatever the platelet function used, a large proportion of patients were detected as "low-responders" (37% by VASP, 44% by ADP aggregometry). Absolute change in ADP aggregation was correlated to the variation of PRI (R = 0.559; P = 0.02). Contrary to ADP aggregometry, PRI was not influenced by GPIIbIIIa antagonists or prior administration of ASA. However, the conformity of the two methods to evaluate clopidogrel responsiveness was only 66%. No differences in platelet aggregometry could be observed at d5 between "low" and "good-responders" defined by VASP analysis. At d5, a higher PRI value could be detected in male and patients with history of dyslipemia. CONCLUSION: During coronary syndrome, impaired platelet responsiveness to clopidogrel was observed in a large proportion of patients whatever the platelet function assay used. VASP analysis was found insensitive to GPIIbIIIa or aspirin administration. Possible mechanisms linking clopidogrel "resistance" measured by VASP assay and enhanced thrombogenicity remain to be characterized. Indeed, clopidogrel "resistance" defined by VASP analysis was not associated with higher platelet aggregation.     

Significance of immature platelet fraction and CD41-positive cells at birth in early onset neonatal thrombocytopenia

Early thrombocytopenia is a common hematological abnormality in sick neonates. Here, we examined the relationship between early thrombocytopenia in neonates and parameters associated with thrombopoiesis to identify predictive factors at birth. Two hundred and forty-four neonates admitted to the neonatal intensive care unit were divided into thrombocytopenic (n = 55, 23%) and non-thrombocytopenic (n = 189, 77%) groups based on platelet counts, which were monitored within 72 h of birth. Immature platelet fraction (IPF) and platelet count at birth were determined simultaneously soon after phlebotomy with an automated hematology analyzer. Megakaryocytes and their precursors positive for CD41 in peripheral blood were examined at birth by flow cytometry. The thrombocytopenic group showed significantly higher IPF percentage and lower percentage of CD41⁺ mononuclear cells (MNCs) than did the non-thrombocytopenic group (P < 0.01). Moreover, the percentage of CD41⁺ MNCs significantly differentiated neonates with platelet counts >150 × 10³/μL at birth and nadir platelet count <150 × 10³/μL over the clinical course from neonates without thrombocytopenia. These observations suggest that the percentage of CD41⁺ MNCs at birth and IPF percentage are useful predictors of early thrombocytopenia in the majority of sick neonates.     

Clopidogrel tapering as a strategy to attenuate platelet rebound phenomenon in patients with bare-metal stents

Early clustering of adverse cardiovascular events after abrupt cessation of clopidogrel has been reported in patients with acute coronary syndromes. A platelet rebound phenomenon may contribute to this increased thrombotic risk and a gradual drug tapering may attenuate this proposed platelet effect. Accordingly, we aimed to assess the effect of clopidogrel tapering on platelet reactivity. Twenty patients who underwent elective percutaneous coronary interventions with bare metal stents receiving 3 months of clopidogrel therapy (75 mg daily) were randomized to either of two discontinuation strategies: (1) Off group–abrupt drug cessation or (2) Tapering group–receiving clopidogrel 75 mg every other day for 4 weeks duration. Light transmission aggregometry, induced by ADP (5 and 10 μM) and collagen, was measured at four time-points (at baseline and 2, 4 and 6 weeks after randomization). In the off group, there was an early rise in platelet reactivity at 2 weeks after abrupt drug cessation compared to baseline, as measured by ADP 5 μmol/l (39.6 ± 2.8 vs. 67.9 ± 6.0, P < 0.001). The tapering regimen suppressed this rebound platelet aggregation by ADP 5 μmol/l at 2 weeks (P = 0.001) and 4 weeks (P = 0.001). Similar results were found with ADP 10 μmol/l and collagen agonists. Abrupt cessation of clopidogrel results in an early rise in platelet aggregability in patients with BMS that is attenuated by a tapering regimen. Clopidogrel administration every other day may achieve similar levels of platelet inhibition as full dose therapy. Further investigations evaluating clopidogrel tapering strategies and their potential clinical impact are warranted.     

Immature platelet fraction and high-on treatment platelet reactivity with ticagrelor in patients with acute coronary syndromes

Residual high-on treatment platelet reactivity (HRPR) has been associated with a 2–9 fold increased risk of acute ischemic events in patients with acute coronary syndromes or coronary stenting. However, the mechanism of suboptimal platelet inhibition are still poorly understood. Aim of present study was to evaluate the role of the percentage of reticulated platelets on HRPR with ticagrelor. In patients treated with ASA (100–160 mg) and ticagrelor (90 mg twice a day) platelet reactivity and the reticulated platelets fraction (immature platelets fraction, IPF) were assessed at 30–90 days after acute coronary syndrome. Aggregation was assessed by multiple-electrode aggregometry. HRPR was defined as ADP test >417 AU*min. Our population is represented by 190 patients, divided according to tertiles values of IPF (<2.5; 2.5–3.99; ≥4 %). Higher IPF was associated to a larger platelet volume and lower platelets count (p < 0.001), and inversely related with a history of previous coronary revascularization (p = 0.03). Twenty-one out of 190 (11.0 %) patients displayed HRPR. No difference in the levels of circulating IPF was found in patients with or without HRPR (p = 0.25), with no correlation between the rate of reticulated platelets and platelet reactivity at ADP test (r = ?0.084, p = 0.26). In fact no association was observed between high levels of IPF and the occurrence of HRPR (adjusted OR[95 % CI] = 0.69[0.34–1,37], p = 0.28), even after correction for baseline differences. In patients treated with ticagrelor, the levels of circulating reticulated platelets assessed at 30–90 days post-ACS are not associated with platelet reactivity or the occurrence of HRPR.     

Effects of rosuvastatin on platelet inhibition by clopidogrel in cardiovascular patients

Statin interference has been suggested among the mechanisms of reduction of the antiplatelet effect of clopidogrel. We thus sought to assess the influence of rosuvastatin on clopidogrel antiplatelet action in high-risk (HR) cardiovascular patients. To set the level of platelet inhibition by combined antithrombotic treatments we retrospectively studied two populations of HR patients, one under aspirin alone, the other under aspirin plus rosuvastatin, before and after addition of clopidogrel. The effects of rosuvastatin compared with atorvastatin were then prospectively investigated in patients who underwent percutaneous coronary intervention (PCI), under clopidogrel and aspirin treatment. Light transmission platelet aggregation (LTA) was studied in response to adenosine diphosphate (ADP) (5 μM) or arachidonic acid (0.5 mM). The inhibitory effect of clopidogrel in reducing ADP-induced LTA was similar in the two HR groups of patients. No difference in ADP-induced platelet aggregation was observed in the two PCI groups of patients with either atorvastatin or rosuvastatin. In conclusion, rosuvastatin does not interfere with the antiplatelet effect of clopidogrel in patients with cardiovascular disease.     

Association of plasma miR-223 and platelet reactivity in patients with coronary artery disease on dual antiplatelet therapy: A preliminary report

Decreased plasma levels of microRNA-223 (miR-223), predominantly of platelet origin, were proposed as a surrogate marker of efficacy of antiplatelet therapy. However, higher on-treatment platelet reactivity was associated with lower plasma miR-223 in patients with coronary artery disease (CAD) on dual antiplatelet therapy (DAPT) including clopidogrel and aspirin. Our aim was to compare plasma miR-223 and platelet reactivity in CAD patients on DAPT with newer P2Y₁₂ antagonists vs. clopidogrel. We studied 21 men with CAD admitted to our centre owing to a non-ST-elevation acute coronary syndrome, and with an uncomplicated hospital course. From the day of admission, the patients were receiving either clopidogrel (n?=?11) or prasugrel/ticagrelor (n?=?10) in addition to aspirin. Before discharge, miR-223 expression in plasma was estimated by quantitative polymerase chain reaction using the comparative Ct method relative to miR-16 as an endogenous control. Multiple electrode aggregometry was used to assess platelet aggregation in response to adenosine diphosphate (ADP). ADP-induced platelet reactivity was decreased in the patients treated with prasugrel or ticagrelor compared with those on clopidogrel (mean?±?SD: 139?±?71 vs. 313?±?162 arbitrary units [AU]*min, p?=?0.006), due to a more potent antiplatelet activity of the novel P2Y₁₂ antagonists. Consequently, six out of seven patients in the lower tertile of the ADP-induced platelet aggregation were treated with the newer P2Y₁₂ blockers, whereas six out of seven patients in the upper tertile were on clopidogrel. Plasma miR-223 was elevated with decreasing platelet reactivity (Spearman’s rho?=?–0.52; p?=?0.015 for trend), being significantly higher in the lower tertile of the ADP-induced platelet aggregation (median [range]: 1.06 [0.25–2.31]) vs. the upper tertile (0.20 [0.13–2.30]) (p?=?0.04). In conclusion, our preliminary results argue against the notion of low plasma miR-223 as a marker of platelet responsiveness to DAPT. On the contrary, more potent platelet inhibition associated mainly with newer P2Y₁₂ antagonists appears to coincide with higher miR-223 relative to the subjects with attenuated responsiveness to DAPT.     

Impact of immature platelet fraction on platelet reactivity during prasugrel maintenance treatment

Residual high on-treatment platelet reactivity (HTPR) despite dual antiplatelet therapy (DAPT) has emerged as a predictor of major ischemic events in patients undergoing percutaneous coronary interventions (PCIs), especially after an acute cardiovascular event. However, its determinants are still poorly defined. Therefore, the aim of the present study was to evaluate the role of the percentage of reticulated platelets on HTPR in patients on DAPT with ASA (100–160 mg) and prasugrel (10 mg).

Platelet reactivity and the reticulated platelets fraction (immature platelets fraction [IPF]) were assessed at 30–90 days after an acute coronary syndrome. Aggregation was assessed by multiple-electrode aggregometry. HTPR was defined as ADP test > 417 AU × min.

Our population is represented by 180 ACS patients undergoing stent implantation, divided according to median values of IPF (< or ≥ 2.8%). Higher IPF values were associated to lower platelet count (p < 0.001) and a higher rate of active smokers (p = 0.02). No difference was observed in terms of mean platelet reactivity, with different activating stimuli. The prevalence of HTPR on prasugrel did not significantly differ in patients with IPF < or ≥ 2.8% (8%vs. 11.8%, p = 0.46; adjusted OR [95% CI] = 1.89 [0.66–5.4], p = 0.24).

Our study showed that in patients treated with prasugrel after PCI for ACS, the immature platelet fraction influences neither platelet reactivity nor the rate of HTPR.     

Prasugrel loading dose in diabetic patients with acute STEMI – Always sufficiently effective? Observation in two cases and review of current knowledge

The activation and subsequent platelet aggregation play a key role in the formation of arterial thrombosis and therefore is the key therapeutic target in the treatment of acute coronary syndromes. Dual antiplatelet therapy containing aspirin and P2Y12 ADP receptor antagonist forms currently the basis in acute ST – elevation myocardial infarction (STEMI) pharmacological treatment. Nevertheless, there is a wide variability in pharmacodynamic response to administration of clopidogrel, the most frequently used P2Y12 ADP receptor antagonist. High platelet reactivity after clopidogrel administration is associated with increased risk of stent thrombosis and points to the suitability of laboratory monitoring of antiplatelet therapy efficacy in clinical practice. Laboratory monitoring of antiplatelet therapy by ex vivo platelet function tests may help to identify individuals with poor antiplatlet response. Recently, there is a growing number of data reporting a failure in antiplatelet response following clopidogrel administration, which is specifically associated with insulin resistance and diabetes mellitus. Prasugrel, a new, potent P2Y12 ADP receptor antagonist, provides faster and more consistent inhibition of platelet function compared with clopidogrel. Prasugrel therapy was repeatedly described as an effective method to overcome clopidogrel resistance and prasugrel resistance has not yet been reliably described. We report two cases of patients with diabetes mellitus type 2 at the stage of organ complications, in whom a prasugrel loading dose of 60 mg did not reach adequate antiplatelet response in 60 min after prasugrel administration. The antiplatelet response was measured by light transmission aggregometry and by VASP protein phosphorylation assessment.     

Serum uric acid level negatively correlated with the prevalence of clopidogrel low response in patients undergoing antiplatelet treatment with aspirin and clopidogrel

Background and aimsIt has been reported that elevated serum uric acid (SUA) is related to inflammation and potentially to platelet hyper-reactivity. However, the relationship between elevated SUA and residual platelet reactivity is uncertain in patients on dual antiplatelet treatment (DAPT) with aspirin and clopidogrel.Methods and resultsA cross-sectional cohort study was conducted on 2569 patients undergoing DAPT with aspirin and clopidogrel. Patients' SUA levels, residual platelet aggregation, routine blood tests and clinical characteristics were recorded. The relationship between SUA level and residual platelet aggregation was assessed by correlation analysis, and the relationship between SUA level and the prevalence of clopidogrel low response (CLR) was assessed by multivariate logistic regression analysis. Adenosine diphosphate (ADP) induced platelet aggregation (PL_ADP) was higher in normal-SUA group than that in hyperuricemia group [30(21, 40) % vs. 27(19, 39) %, p = 0.032]. No significant difference was found for arachidonic acid (AA) induced platelet aggregation (PL_AA) between the two groups [4(2, 5) % vs. 3(2, 5) %, p = 0.557]. The correlation between SUA and PL_ADP was statistically significant(r = −0.115, p < 0.001), while that between SUA and PL_AA was non-significant (r = −0.012, p = 0.643). Using the multivariate logistic regression analysis, higher SUA concentration was associated with a decreased risk of clopidogrel low response (CLR) (OR [95%CI] = 0.997 [0.995–0.999], p = 0.001).ConclusionThis is the largest study to date showing that in patients receiving DAPT with aspirin and clopidogrel, SUA is independently and negatively associated with the prevalence of clopidogrel low response.Clinical trial registrationURL: http://www.clinicaltrials.gov Unique Identifier: NCT01955200.     

Poor agreement between light transmission aggregometry,Verify Now P2Y12 and vasodilatator-stimulated phosphoprotein for clopidogrel low-response assessment: A potential explanation of negative results of recent randomized trials

Abstract

Clopidogrel low response as assessed by several different biological tests correlates with poor prognosis after percutaneous coronary intervention (PCI). However, recent randomized clinical trials (RCT) testing the strategy of individual antiplatelet therapy tailoring based on one sole test have all shown negative results. Poor correlation between the different tests may explain the difficulties of patient selection and identification of “true poor responders” to clopidogrel. In this prospective study, clopidogrel response was assessed in 100 consecutive patients between 18 and 24 hours after a 600?mg clopidogrel loading dose using three different tests: light transmission aggregometry with 10?μmol ADP (LTA, results expressed as platelet aggregation percentage: PAP), Verify Now P2Y₁₂ (VN, results expressed as P2Y₁₂ reaction unit: PRU) and vasodilatator-stimulated phosphoprotein (VASP, results expressed as platelet reactivity index: PRI). Patients under chronic clopidogrel therapy were excluded. The mean PAP, PRU and PRI values were 38.6%, 176.1 PRU and 52.4%, respectively. When clopidogrel response was analyzed as continuous variable, there was a good correlation between the different tests: LTA/VN (R^2?=?0.642, p?<?0.001), LTA/VASP (R^2?=?0.409, p?<?0.001) and VN/VASP (R^2?=?0.616, p?<?0.001). However, when clopidogrel response was analyzed as pre-specified cut-off points to define patients as “poor or good responders” (according to the literature: 50% PAP for LTA, 235 PRU for VN and 50% PRI for VASP), only 47% of the patients were defined as “good” or “poor responders” by the three tests. Altogether, 33% of the patients were defined as “poor responders” by only one test, 20% by two tests and only 16% by the three tests. The correlation between the different tests is good when clopidogrel response is analyzed as continuous variable. Each individual is however rarely (less than 50%) defined as “poor or good responder” by all the three tests when pre-specified cut-off values are used. A sole test might not be sufficient to manage antiplatelet therapy in an individual patient and these results may explain the results of recent RCT showing the lack of benefit of systematic antiplatelet therapy monitoring strategy.     

Comparison of the effects of pretreatment with tirofiban, clopidogrel or both on the inhibition of platelet aggregation and activation in patients with acute coronary syndromes

Objective We sought to compare platelet inhibition produced by three antiplatelet regimens. Methods and results Sixty NSTE-ACS patients undergoing coronary angiography treated with aspirin and enoxaparin were randomised to receive tirofiban 0.4 μg/kg/min over 30 min plus 0.15 μg/kg/min over 24 h (A), clopidogrel 600 mg (B), clopidogrel 300 mg plus tirofiban (C); blood samples were taken at baseline and 2, 6 and 24 h after the drug administration, and were analyzed by light transmission aggregometry and flow cytometry. Treatment with clopidogrel 600 mg significantly reduced P-selectin expression in comparison with tirofiban alone at all time points (group B vs. A: P < 0.0001). However tirofiban inhibited platelet aggregation significantly more than clopidogrel 600 mg during the first 6 h (group A vs. B: P < 0.0001), and the addition of clopidogrel 300 mg did not inhibit platelet aggregation any more than tirofiban alone throughout the 24 h (group C vs. A: P = NS). All of the changes over time within each group were highly significant (P < 0.0001). Conclusions Tirofiban leads to greater early inhibition of platelet aggregation but less suppression of P-selectin expression than clopidogrel 600 mg. The addition of clopidogrel to tirofiban does not add any anti-aggregatory effect, but reduces P-selectin expression, thus likely adding a significant biological and clinical protective effect and providing a rationale for the combined use of the two drugs. Condensed abstract We sought to compare platelet inhibition produced by three antiplatelet regimens using light transmission aggregometry and flow cytometry. Tirofiban leads to greater early inhibition of platelet aggregation but less suppression of P-selectin expression than clopidogrel 600 mg, thus providing the rationale for the combined use of the two drugs. Emilia Solinas and Giuliana Gobbi contributed equally to the study.     

Platelet activation patterns in platelet size sub-populations: differential responses to aspirin in vitro

Abstract  

Circulating platelets are heterogeneous in size and structure. Whether this translates into differences in platelet function and efficacy of antiplatelet therapy is unclear. Hence, we decided to investigate the activation patterns among different platelet populations differentiated by size, and to compare the inhibitory effects of aspirin in these populations. Circulating platelets from 9 healthy volunteers were separated by size and stratified into the largest and smallest quintiles. Platelets were stimulated with 75 μM arachidonic acid (AA), 10 μM ADP or 25 μM TRAP. Alpha-granule protein secretion and expression (P-selectin, VWF, fibrinogen), surface-protein activation (activated integrin αIIbβ3) were assessed. Platelet thromboxane B₂ (TxB₂) synthesis following AA stimulation was measured in vitro before and after incubation with 265 μM aspirin. Reticulated (juvenile) platelets were assessed using thiazole orange staining. A greater number of large platelets in the largest quintile were reticulated compared with the smallest quintile (6.1 ± 2.8% vs. 1.2 ± 1.5% respectively, p < 0.001). Larger platelets also synthesized more TxB₂ than small platelets both before (1348 ± 276 pg/mL vs. 1023 ± 214 pg/mL, respectively, p = 0.01) and after aspirin (1029 ± 190 pg/mL vs. 851 ± 159 pg/mL, respectively, p = 0.03). After stimulation with each agonist, a greater proportion of large platelets bound fibrinogen, VWF, P-selectin and activated integrin αIIbβ3 than small platelets both in the presence and in the absence of in vitro aspirin. In an in vitro setting, large platelets appear to be more active than small platelets and continue to be more active even after in vitro aspirin.     

Gender and Responses to Aspirin and Clopidogrel: Insights Using Short Thrombelastography

There is significant variability in both baseline clotting tendency and response to antiplatelet therapy. Responses are associated with outcome. We have investigated whether differences could explain the increased risk observed in women presenting with coronary artery disease. We have utilized short thrombelastography to assess (i) baseline clotting responses, (ii) response to aspirin and clopidogrel, and (iii) post‐treatment platelet reactivity in 48 young volunteers, 22 older patients and 18 patients with previous stent thrombosis. Baseline responses were significantly higher in young women than in men. While there was no difference in response to aspirin, platelet reactivity on aspirin remained higher in women (area under curve at 15 min [AUC15] of arachidonic acid channel 332 ± 122 vs. 172 ± 80, P= 0.04). Young women had less response to clopidogrel (% reduction in AUC15 with adenosine diphosphate [ADP] 36.4 ± 12.4 vs. 64.0 ± 13.2, P < 0.01) in addition to higher post‐treatment reactivity (AUC15 of ADP 714 ± 161 vs. 311 ± 146, P < 0.01) compared to men. There were no such differences between male and female patients over 50. However, young women with previous stent thrombosis had among the highest platelet reactivity observed. Compared to men, young women have greater baseline clotting tendency, reduced response to clopidogrel, and greater post‐treatment reactivity while on both aspirin and clopidogrel. Differences in clotting tendency and response to antiplatelet therapy may contribute to the excess risk observed in young women but are not observed in older female patients.     

Platelet factor XIIIa release during platelet aggregation and plasma clot strength measured by thrombelastography in patients with coronary artery disease treated with clopidogrel

Abstract

It has been estimated that up to half of circulating factor XIIIa (FXIIIa) is stored in platelets. The release of FXIIIa from platelets upon stimulation with adenosine diphosphate (ADP) in patients with coronary artery disease treated with dual antiplatelet therapy has not been previously examined. Samples from 96 patients with established coronary artery disease treated with aspirin and clopidogrel were examined. Platelet aggregation was performed by light transmittance aggregometry in platelet-rich plasma (PRP), with platelet-poor plasma (PPP) as reference, and ADP 5?µM as agonist. Kaolin-activated thrombelastography (TEG) was performed in citrate PPP. PRP after aggregation was centrifuged and plasma supernatant (PSN) collected. FXIIIa was measured in PPP and PSN. Platelet aggregation after stimulation with ADP 5?µM resulted in 24% additional FXIIIa release in PSN as compared to PPP (99.3?±?27 vs. 80.3?±?24%, p?<?0.0001). FXIIIa concentration in PSN correlated with maximal plasma clot strength (TEG-G) (r?=?0.48, p?<?0.0001), but not in PPP (r?=?0.15, p?=?0.14). Increasing quartiles of platelet-derived FXIIIa were associated with incrementally higher TEG-G (p?=?0.012). FXIIIa release was similar between clopidogrel responders and non-responders (p?=?0.18). In summary, platelets treated with aspirin and clopidogrel release a significant amount of FXIIIa upon aggregation by ADP. Platelet-derived FXIIIa may contribute to differences in plasma TEG-G, and thus, in part, provide a mechanistic explanation for high clot strength observed as a consequence of platelet activation. Variability in clopidogrel response does not significantly influence FXIIIa release from platelets.     

Homocysteine levels and platelet reactivity in coronary artery disease patients treated with ticagrelor

Background and aimRecurrent atherothrombotic events have been reported in certain higher risk subsets of patients even with ticagrelor, a potent first-line antiplatelet agent for the management of patients with acute coronary syndrome (ACS). Hyperhomocysteinemia is a known determinant of platelet function abnormalities. Therefore, the aim of our study was to evaluate the impact of homocysteine (Hcy) levels on platelet reactivity in patients receiving Ticagrelor.Methods and resultsPatients with ACS undergoing percutaneous coronary revascularization and on dual antiplatelet therapy with ASA + Ticagrelor (90mg/twice a day) were scheduled for platelet function assessment 30–90 days post-discharge. Aggregation tests were performed by Multiple Electrode Aggregometry (MEA). Suboptimal platelet inhibition HRPR-high residual platelet reactivity was defined if above the lower limit of normality (417 AU*min).We included 432 patients, divided according to Hcy tertiles. Higher Hcy levels were associated with age, renal failure, creatinine levels and use diuretics (p < 0.001).Patients with higher Hcy levels displayed a higher platelet reactivity at COL test (p = 0.002), and ADP test (p = 0.04), with a linear relationship between Hcy and platelet aggregation after stimulation with collagen (r = 0.202, p < 0.001), thrombin receptor peptide (r = 0.104, p = 0.05) and ADP (r = 0.145, p = 0.006).However, Hcy levels did not significantly affect the rate of HRPR with Ticagrelor (9.9% vs 13.7% vs 10.7%, p = 0.89; adjusted OR [95% CI] = [0.616–1.51], p = 0.99).ConclusionsAmong patients with ACS, despite the elevated platelet reactivity associated to hyperhomocysteinemia, DAPT with ticagrelor could overcome such phenomenon, achieving an adequate platelet inhibition in the majority of the patients.     

Impact of Gene Polymorphisms,Platelet Reactivity,and the SYNTAX Score on 1-Year Clinical Outcomes in Patients With Non–ST-Segment Elevation Acute Coronary Syndrome Undergoing Percutaneous Coronary Intervention: The GEPRESS Study

ObjectivesThe aim of this study was to investigate the association between high on-treatment platelet reactivity (HPR) and the SYNTAX (Synergy Between Percutaneous Coronary Intervention With Taxus and Cardiac Surgery) score (SS) for risk prediction of major adverse cardiovascular events (MACE) in patients with non–ST-segment elevation acute coronary syndrome (NSTEACS) undergoing percutaneous coronary intervention (PCI).BackgroundPlatelet function testing may be used to optimize antiplatelet therapy in high-risk patients, but identification of this category of patients remains challenging.MethodsThe GEPRESS (Gene Polymorphism, Platelet Reactivity, and the Syntax Score) study was a prospective, multicenter, observational study enrolling 1,053 patients with NSTEACS undergoing PCI and treated with clopidogrel. The platelet reactivity index (PRI) was measured at 3 time points: before PCI, at hospital discharge, and 1 month after PCI. Genetic variants of clopidogrel metabolism were determined in 750 patients. Patients were stratified by the presence of HPR (PRI >50%) and by tertile of the SS (upper SS tertile ≥15). The primary objective of this study was the risk of MACE in the period between 1 month and 1 year.ResultsBetween 1 month and 1 year, 1-month HPR was an independent predictor of MACE in patients with an SS ≥15, but not in those with an SS <15, displaying a 5-fold increase in event rates (10.4% vs. 2.5%; p < 0.0001). CYP2C19*2 was the only single nucleotide polymorphism associated with HPR, but it was not associated with MACE. Although there was a significant variability in the PRI across the 1-month period, predischarge HPR and SS effectively stratified the risk of subsequent MACE up to 1-year follow-up.ConclusionsIn clopidogrel-treated patients with NSTEACS undergoing PCI, HPR was independently associated with an increased risk of MACE only in the presence of a high SS.     

Lack of early augmentation of platelet reactivity after coronary intervention in patients treated with bivalirudin

To determine whether a regimen of aspirin pretreatment, bivalirudin during the procedure and clopidogrel (600 mg) immediately after percutaneous coronary intervention (PCI) was associated with platelet activation during and shortly after (1 and 2 h) PCI, we characterized platelet function in 10 patients with the use of flow cytometry in the absence of agonist and in response to thrombin (10 nM), ADP (1 μM), the collagen-mimetic convulxin (5 ng/ml), and platelet activating factor (10 nM). Activation of platelets in peripheral blood was rare (<0.5% of platelets) before, during and after PCI. Platelet reactivity in response to each of the agonists was lower after the PCI compared with that in blood taken before the PCI. Accordingly, platelet activation and platelet reactivity were not increased after elective PCI when patients were treated during the procedure with aspirin and bivalirudin and immediately after the procedure with a 600 mg loading dose of clopidogrel.     

The Retention Index Test Homburg (RTH-II): Response to clopidogrel and comparison with aggregometry and CD62P-expression

The Retention Index Test Homburg (RTH-II) is quoted to detect effects of shear stress on platelets, which involve ADP receptor signaling. RTH-II might be a tool for monitoring antiplatelet therapy for compounds that interfere with ADP induced platelet activation and secretion. In a series of investigations, we used an ADP (2?µM) triggered RTH-II in parallel with light-transmittance aggregometry and flow cytometry in subjects before and after clopidogrel. A loading dose of 225?mg clopidogrel leads to a significant reduction (p?<?0.01) in the ADP-stimulated retention index (RI) from 69?±?15 to 48?±?21%, in the aggregation response to 5?µM ADP (from 50?±?20 to 29?±?21%) and the expression of CD62P (from 64?±?11 to 41?±?17%). Correlation analysis showed that the RI corresponds significantly to CD62P-expression (p?<?0.01) but not to aggregation. We also found a strong correlation (p?<?0.01) between the ADP-stimulated RI and the expression of CD62P after stimulation with 2?µM ADP, whereas no correlation was seen for RI vs. binding of PAC-1 or aggregation. Platelets not retained in the filter had lower CD62P expression than measured in the sample before the filter passage (54 vs. 35%). A direct interaction of CD62P with platelet ligands might lead to enhanced retention in RTH and explain the correlation of RI with CD62P expression. The RTH-II might be a simple and easy to handle platelet function assay for monitoring effects on P2Y₁₂-inhibitors on platelet degranulation, perhaps in addition to aggregometry.