Aspirin therapy for inhibition of platelet reactivity in the presence of erythrocytes in patients with vascular disease

Chronic Application of Low-Dose Aspirin Affects Multiple Parameters of Three Blood Cellular Types and Antithrombin Activity: A 1:1:1 Propensity Score Matching Analysis

ABSTRACT

The mechanisms of aspirin antithrombotic actions have not been fully elucidated. We re-analyzed the data from the project Aspirin Resistance in Patients with Ischemic Atherothrombotic Diseases from April 2008 to June 2010. A total of 530 subjects were classified into 3 groups, including 40 patients without aspirin use, 24 patients taking 25-50 mg/d aspirin, and 466 patients taking 75-100 mg/d aspirin over 1 month. By 1:1:1 propensity score matching adjusting 15 primary clinical covariates, 51 patients (n = 17 per group) comprised the final sample. Hemostasis-related parameters and high platelet reactivity as measured by arachidonic acid-induced and adenosine diphosphate-induced light transmission aggregometry were compared in the 3 groups. A dose-dependent relationship was observed between aspirin and decreased high platelet reactivity incidence (PAA < 0.001, PADP < 0.01, respectively), decreased monocyte ratio (P = 0.052), increased antithrombin activity (P < 0.001), and increased platelet distribution width (P < 0.05). Aspirin at 25-50 mg/d is related to the lowest red blood cell (RBC) count, whereas 75-100 mg/d aspirin showed the highest RBC count among the 3 groups (4.52 ± 0.35 × 1012/L vs. 4.35 ± 0.57 × 1012/L vs. 4.80 ± 0.59 × 1012/L, P = 0.046). Our finding demonstrated that aspirin exerts its antithrombotic effects at least by antiplatelet function, enhancing antithrombin activity and suppressing monocytes in vivo. In addition, 3 blood cell types, namely RBCs, monocytes, and platelets, are involved in the aspirin antithrombotic mechanism. The cellular response to aspirin partially enhances the antithrombotic effects while partially inhibiting the effects.

Circadian Rhythm of Cardiovascular Disease: The Potential of Chronotherapy With Aspirin

Almost all the systems in our body adhere to a daily 24 h rhythm. The cardiovascular system is also affected by this 24 h rhythm. In the morning there is a change in various cardiovascular processes, including platelet aggregability. These changes may play a role in the relative excess of early morning cardiovascular events. The number of recurrent cardiovascular diseases (CVD) could, in theory, be reduced by responding to this 24 h rhythm with timed medication intake (chronotherapy), which also applies to aspirin. Multiple studies on chronotherapy with low-dose aspirin are promising, showing a decrease in early morning platelet activity with evening intake compared with morning intake. However, in order to further demonstrate its clinical impact, randomized trials with cardiovascular events as a primary outcome are needed. This review discusses the available evidence of the effects of circadian rhythm on CVD and the potential positive effect of chronotherapy with aspirin.

n-3 Fatty acids affect haemostasis but do not increase the risk of bleeding: clinical observations and mechanistic insights

n-3 Fatty acids (EPA and DHA, from fish oil) are essential fatty acids that are approved for the treatment of severe hypertriacylglycerolaemia and, in some countries, used for reducing the risk of CVD. Because of their inhibitory effects on platelet function, some practitioners have, perhaps unnecessarily, discontinued their use in patients undergoing invasive procedures or being treated with anti-platelet or anticoagulation drugs. Thus, the aim of the present study was to review the effects ofn-3 fatty acids on bleeding complications in a wide variety of clinical settings, and to summarise their biochemical mechanism of action in platelet function and coagulation. We surveyed recent publications that either directly studied the effects ofn-3 fatty acids on the risk of bleeding or focused on different end-points and also reported the effects on bleeding.n-3 Fatty acid treatment had no effect on the risk of clinically significant bleeding in either monotherapy or combination therapy settings. Although originally believed to operate primarily via the cyclo-oxygenase system, these fatty acids have been shown to affect multiple signalling pathways and thrombotic processes beyond simply affecting platelet aggregation. The present overview found no support for discontinuing the use ofn-3 fatty acid treatment before invasive procedures or when given in combination with other agents that affect bleeding. On the contrary, the use of these fatty acids in several settings improved clinical outcomes.

Antiplatelet effect of once- or twice-daily aspirin dosage in stable coronary artery disease patients with diabetes

The aim of this pilot study was to compare the effect of two different regimens of aspirin dosage on platelet of coronary artery disease (CAD) diabetic patients. Twenty-five CAD diabetic patients were included. Initially, all patients received aspirin 100 mg/day for 10 days. At day 10, aspirin antiplatelet effect was determined by measuring the collagen/epinephrine closure time (CT) 2 h after the last aspirin dosage and the next morning at 8 a.m.. The aspirin regimen was modified to 100 mg twice daily for patients showing a non-optimal platelet-inhibitory effect (CT < 298 s at 8 a.m.). Persistent high platelet reactivity (HPR) was defined by a CT < 160 s. During the 100 mg/day aspirin regimen, the prevalence of HPR at 8 a.m. was 48%, and only 7 patients (28%) had showed an optimal platelet-inhibitory effect. Bridging to the twice-daily regimen, the HPR was significantly reduced (p=0.025), and the optimal platelet-inhibitory effect was reached for 3 other patients. Our results showed that 100 mg aspirin twice-daily dosing rather than a once-daily dose significantly improves the aspirin effect on platelet of CAD diabetic patients. However, large prospective studies were needed to confirm whether this strategy will be clinically relevant and safe.

Stroke and aspirin non-responder patients: relation with hypertension and platelet response to adenosine diphosphate

Despite its widespread use, there are many concerns about the efficacy of aspirin in the secondary prevention of cardiovascular events after stroke, leading to the concept of aspirin non-response (ANR). Although the mechanisms of ANR remain uncertain, it is expected to be due to a combination of clinical, biological and genetic characteristics affecting platelet function. In this study, we investigated whether clinical and/or biological factors such as hypertension and platelet response to ADP could contribute to the ANR. As a secondary objective, we determine whether ANR and collagen/ADP closure time (CADP-CT) could be related to platelet glycoprotein single nucleotide polymorphisms (SNPs). One hundred patients on aspirin (160 mg/day) were enrolled. ANR was measured with a platelet function analyzer (PFA-100); genotyping of four SNPs (GP IIIa, GP Ia, P2Y12 and GP VI) was performed using a tetra-primer amplification refractory mutation system. Using a collagen/epinephrine-coated cartridge on the PFA-100, the prevalence of ANR was 15% (n = 15). In the ANR group, (i) CADP-CT was significantly shorter and (ii) hypertension was an independent clinical predictive factor of ANR (OR = 4.25; 95%CI: 1.06-17.11). No clear relation was found between CADT-CT and platelet gene polymorphism as well as ANR status and SNPs. In conclusion our study confirms the independent relationship between hypertension, platelet hypersensitivity to ADP and aspirin (160 mg/day) non-response. The differential sensitivity to aspirin may have potential clinical implications, where adaptation of antiplatelet therapy is necessary according to a patient's clinical and genetic characteristics.

Platelet concentrates transfusion in cardiac surgery and platelet function assessment by multiple electrode aggregometry

BACKGROUND

Platelet dysfunction contributes to the pathophysiology of bleeding complications during and after cardiac surgery. In most surgical institutions, no peri-operative point-of-care monitoring of platelet function is used. We evaluated the usefulness of the Multiplate platelet function analyser based on impedance aggregometry for identifying groups of patients at a high risk of transfusion of platelet concentrates (PC).

METHODS

Platelet function parameters were determined in 60 patients before and after routine cardiac surgery. Impedance aggregometry measurements were performed on Multiplate using ADP (ADPtest), collagen (COLtest) and thrombin receptor activating peptide (TRAPtest) as platelet activators. The correlations between the aggregometry results and the transfusion of PC were calculated. The results of the aggregation tests were also divided into tertiles and the differences in PC transfusion between the low and the high tertile were assessed.

RESULTS

Low aggregometry delimited groups of patients with significantly higher PC transfusion. In the receiver operating characteristic curve, low pre-operative aggregation in the ADPtest identified patients with high total transfusion of PC (area under the curve 0.74, P=0.001), while the ADPtest performed at the end of the operation identified patients with high PC transfusion on the intensive care unit (ICU) (area under the curve 0.76, P=0.002).

CONCLUSIONS

Near-patient platelet aggregation may allow the identification of patients with enhanced risk of PC transfusion, both pre-operatively and upon arrival on the ICU.

Residual platelet thromboxane A2 and prothrombotic effects of erythrocytes are important determinants of aspirin resistance in patients with vascular disease

BACKGROUND

Permanent inactivation of cyclooxygenase-1 and inhibition of platelet thromboxane A(2) (TxA(2)) constitute the main mechanisms underlying the prevention of vascular disease by aspirin.

METHODS AND RESULTS

We studied platelet TxA(2) synthesis and its impact on platelet reactivity and platelet-erythrocyte [platelet-rich plasma (PRP)-RBC] interactions in 533 aspirin-treated patients with vascular disease. Seventy aspirin-free and 16 aspirin-treated normal subjects were evaluated as controls. Collagen (1 mug mL(-1))-induced platelet activation ((14)C-5HT release) and recruitment (proaggregatory activity of cell-free releasates from activated platelets) were assessed in PRP, PRP + RBC, and whole blood (WB). TxA(2) was quantified in releasates from WB. Aspirin inhibited TxA(2) synthesis and platelet function in all patients, but to different degrees. Forty-two patients (8%) displayed partial (<95%) inhibition of TxA(2) relative to that of aspirin-free controls. They produced >3.5 ng mL(-1) TxA(2) and had higher platelet reactivity than 491 patients who had undetectable TxA(2) or produced residual TxA(2) (R-TxA(2);

CONCLUSION

Biochemical markers (TxA(2) synthesis, (14)C-5HT release) and biological assays (platelet aggregation and recruitment) used to monitor the aspirin effect in a large population of patients presenting with vascular disease have evidenced the importance of R-TxA(2) and the prothrombotic effects of RBC in aspirin resistance.

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MESH Headings

• Aged
• Aspirin/pharmacology
• Aspirin/therapeutic use
• Blood Platelets/chemistry
• Collagen/pharmacology
• Cyclooxygenase 1/blood
• Cyclooxygenase Inhibitors/pharmacology
• Cyclooxygenase Inhibitors/therapeutic use
• Drug Resistance/physiology
• Erythrocytes/physiology
• Female
• Humans
• Male
• Middle Aged
• Platelet Activation/drug effects
• Platelet Aggregation/drug effects
• Platelet-Rich Plasma
• Serotonin/metabolism
• Thromboxane A2/biosynthesis
• Thromboxane A2/blood
• Vascular Diseases/blood
• Vascular Diseases/drug therapy

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Affiliation(s)

M T Santos Research Center, University Hospital La Fe, Valencia, Spain.
J Valles
A Lago
J Tembl
E Sánchez
A Moscardo
J Cosin

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Reflectance changes in clotting native blood: evidence of a red-cell process

When broadband light illuminates clotting native blood, the reflectance at each wavelength traces a time course with four discernible regions. Clot formation occurs just before the second phase. Two wavelengths, 471 and 771 nm, were selected for more detailed study of the first two phases. Analysis of each time course in native blood demonstrates that both signals track a single process during the first phase, but distinct processes during the second. Experiments on citrated blood identified which blood components contribute to reflectance changes. Comparison of liquid and clotting blood reveals a single process during the first phase, entailing that rouleaux formation determines the time course at both wavelengths. Control experiments eliminate clot propagation and shape change of red cells or platelets as possible factors in the second phase. Exogenous ADP added to EDTA blood evokes the second-phase response at 471 but not 771 nm, a novel phenomenon that requires the presence of red cells. The descriptive name 'ADP-end-response' is suggested for this red cell process until it is further characterized. We propose that the ADP-end-response determines the 471-nm signal during the second phase of clotting native blood and depends upon platelets in the absence of exogenous ADP. The 771-nm signal reports fibrin cross-linking during the second phase. An earlier pilot study demonstrated that rofecoxib effects the 471-nm signal ex vivo, which indicates that reflectance spectroscopy may be useful in the assessment of drug effects on platelet-erythrocyte interactions.

Platelet aggregation and recruitment with aspirin-clopidogrel therapy

BACKGROUND

Aspirin-clopidogrel combination therapy inhibits platelet aggregation. The effect on platelet recruitment is unknown.

METHODS

Thirty chronic ischemic stroke patients taking aspirin alone followed by aspirin-clopidogrel combined therapy had platelet reactivity tests performed over 3 months: ex vivo platelet aggregation, platelet recruitment and urinary 11-dehydro-thromboxane B(2) (11-dhTxB(2))excretion. Statistical analysis of variance compared platelet aggregation and recruitment between aspirin alone and aspirin-clopidogrel, and longitudinal regression analysis estimated platelet recruitment over time. Nonlinear mapping defined variable connections in each patient.

RESULTS

Statistically significant differences were found between aspirin alone and aspirin-clopidogrel for (1) adenosine-diphosphate- and collagen-induced platelet aggregation and maximum inhibition of platelet recruitment and (2) increasing inhibition of platelet recruitment over time. Urinary 11-dhTxB(2) excretion did not predict platelet aggregation response. Nonlinear mapping showed patient-unique variable interconnections.

CONCLUSIONS

Platelet inhibition with aspirin-clopidogrel may increase over time, and future studies should focus on this finding in the context of vascular complications.