Global Thrombosis Test: Occlusion is attributable to shear-induced platelet thrombus formation.

Herein, we set out a rebuttal to the publication by Claveria and co-workers published in TH Open this month entitled “Global Thrombosis Test: Occlusion by Coagulation or SIPA?” We strongly believe that the conclusions of their paper, suggesting that occlusion (OT) in the Global Thrombosis Test (GTT) is due to coagulation, rather than shear-induced platelet thrombus formation, is incorrect and the evidence and arguments they present are fundamentally flawed, with major errors both in the experimental approach and in the interpretations of the results. The evidence which they demonstrate, shows that occlusion in the GTT is, in fact, caused by high shear induced platelet thrombus formations. We set out herein the evidence for that, based on histology of the thrombus from the GTT in earlier work using electron microscopy showing large platelet aggregates, the very brief timescale of OT in the GTT compared to coagulation time and the sensitivity of the OT in the GTT to the effects of heparin, t-PA and P2Y12 inhibitors. In addition, we revisit the known pathomechanism of high shear-mediated platelet aggregation to underpin our rationale and show that the modifications to the instrument proposed by Claveria and co-authors would render the technique unphysiological. We highlight several methodological concerns and apparent misinterpreted of the data obtained. We present evidence predominantly from the authors’ own data, together with our earlier published data and evidence from the literature, showing that occlusion in the GTT occurs do to shear-induced platelet aggregation.

The P2Y12 Receptor Antagonist Selatogrel Dissolves Preformed Platelet Thrombi In Vivo

Selatogrel, a potent and reversible antagonist of the P2Y12 receptor, inhibited FeCl3-induced thrombosis in rats. Here, we report the anti-thrombotic effect of selatogrel after subcutaneous applications in guinea pigs and mice. Selatogrel inhibited platelet function only 10 min after subcutaneous application in mice. In addition, in a modified Folts thrombosis model in guinea pigs, selatogrel prevented a decrease in blood-flow, indicative of the inhibition of ongoing thrombosis, approximately 10 min after subcutaneous injection. Selatogrel fully normalised blood flow; therefore, we speculate that it may not only prevent, but also dissolve, platelet thrombi. Thrombus dissolution was investigated using real-time intravital microscopy in mice. The infusion of selatogrel during ongoing platelet thrombus formation stopped growth and induced the dissolution of the preformed platelet thrombus. In addition, platelet-rich thrombi were given 30 min to consolidate in vivo. The infusion of selatogrel dissolved the preformed and consolidated platelet thrombi. Dissolution was limited to the disintegration of the occluding part of the platelet thrombi, leaving small mural platelet aggregates to seal the blood vessel. Therefore, our experiments uncovered a novel advantage of selatogrel: the dissolution of pre-formed thrombi without the disintegration of haemostatic seals, suggesting a bipartite benefit of the early application of selatogrel in patients with acute thrombosis.

DNAse-dependent, NET-independent pathway of thrombus formation in vivo

The contribution of NETs (neutrophil extracellular traps) to thrombus formation has been intensively documented in both arterial and venous thrombosis in mice. We previously demonstrated that adenosine triphosphate (ATP)–activated neutrophils play a key role in initiating the tissue factor–dependent activation of the coagulation cascade, leading to thrombus formation following laser-induced injury. Here, we investigated the contribution of NETs to thrombus formation in a laser-induced injury model. In vivo, treatment of mice with DNase-I significantly inhibited the accumulation of polymorphonuclear neutrophils at the site of injury, neutrophil elastase secretion, and platelet thrombus formation within seconds following injury. Surprisingly, electron microscopy of the thrombus revealed that neutrophils present at the site of laser-induced injury did not form NETs. In vitro, ATP, the main neutrophil agonist present at the site of laser-induced injury, induced the overexpression of PAD4 and CitH3 but not NETosis. However, compared to no treatment, the addition of DNase-I was sufficient to cleave ATP and adenosine diphosphate (ADP) in adenosine. Human and mouse platelet aggregation by ADP and neutrophil activation by ATP were also significantly reduced in the presence of DNase-I. We conclude that following laser-induced injury, neutrophils but not NETs are involved in thrombus formation. Treatment with DNase-I induces the hydrolysis of ATP and ADP, leading to the generation of adenosine and the inhibition of thrombus formation in vivo.

Changes in the functional state of platelets in patients with polytrauma

Background. Polytrauma remains the leading cause of global morbidity and mortality and is the cause of more than 10 % of deaths. The purpose of this research was to study the lite­rature data about changes in vascular platelet hemostasis, to investigate the dynamics of the morphofunctional state of platelets, to analyze changes in intravascular platelet activation in patients with polytrauma. Results. Normal blood clotting requires at least 4 components — blood vessels, platelets, the ability of blood to coagulate and fibrinolysis. Determination of components such as indicators of intravascular platelet activation can be an important step in assessing disorders of platelet hemostasis in patients with polytrauma. Vascular platelet hemostasis begins with primary reflex spasm of arterioles, followed by secondary spasm of arterioles, then primary platelet plug is formed (adhesion and aggregation), and, accor­dingly, the consolidation of the thrombus, resulting in the formation of the final platelet thrombus. Even before the contact of platelets with naked collagen, the primary activation of platelets occurs. Initially, the shape of intact platelets changes from discoid form to activated cells of discoechinocytes, spherocytes and, or, spheroechinocytes. We found that on day 3 after injury, with a normal number of platelets in the venous blood, the number of intact platelets, discocytes, decreases, the number of active forms of thrombocytes, discoechinocytes and spheroechinocytes, increases, and, accor­dingly, the total amount of active forms of thrombocytes increases. Normal platelet counts in patients with polytrauma may mask the severity of coagulopathy, and studies of intravascular platelet activation may be a diagnostic component of the vascular platelet hemostasis in patients with polytrauma. Conclusions. In patients with coagulopathy due to polytrauma, there are changes in intravascular platelet activation and platelet aggregation, induced by adrenaline and adenosine diphosphate, on day 3.

Assessment of Platelet Thrombus Formation under Flow Conditions in Adult Patients with COVID-19: An Observational Study

Background Coronavirus disease 2019 (COVID-19) is associated with systemic inflammation, which may dysregulate platelet function. Total Thrombus-Formation Analysis System (T-TAS) is a flow-chamber device that analyses platelet-mediated thrombus formation in capillary channels through the following parameters: (1) the area under the flow-pressure curve (AUC), (2) occlusion start time (OST), time needed to reach OST, and (3) occlusion time (OT), time needed to reach the occlusion pressure. Methods and Findings Sixty-one COVID-19 patients admitted to intensive, subintensive, and low intensive care were prospectively enrolled according to the time of admission: group A (up to 8 days) (n = 18); group B (from 9 to 21 days) (n = 19), and group C ( > 21 days) (n = 24). T-TAS measurements were performed at enrolment and after 7 days. Median OST was similar among groups. AUC was lower in group A compared to B (p = 0.001) and C (p = 0.033). OT was longer in group A compared to B (p = 0.001) and C (p = 0.028). Platelet count (PC) was higher in group B compared to A (p = 0.024). The linear regression showed that OT and AUC were independent from PC in group A (OT: 0.149 [95% confidence interval [CI]: –0.326 to 0.624], p = 0.513 and AUC: 0.005 [95% CI: –0.008 to 0.017], p = 0,447). In contrast, in group B, PC was associated with OT (–0.019 [–0.028 to 0.008], p = 0.023) and AUC (0.749 [0.358–1.139], p = 0,015), similarly to group C. Conversely, patients with different illness severity had similar T-TAS parameters. Conclusion COVID-19 patients display an impaired platelet thrombus formation in the early phase of the disease compared to later stages and controls, independently from illness severity.