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.