Background Traumatic injury can lead to dysregulation of the normal clotting system, resulting in hemorrhagic and thrombotic complications. Platelet activation is robust following traumatic injury and one process of platelet activation is to release of extracellular vesicles (PEV) that carry heterogenous cargo loads and surface ligands. Objectives We sought to investigate and characterize the release and function of PEVs generated following traumatic injury. Methods PEV content and quantity in circulation following trauma in humans and mice was measured using flow cytometry, size exclusion chromatography, and nanoparticle tracking analysis. PEVs were isolated from circulation and the effects on thrombin generation, bleeding time, hemorrhage control, and thrombus formation were determined. Finally, the effect of hydroxychloroquine (HCQ) on PEV release and thrombosis were examined. Results Human and murine trauma results in a significant release of PEVs into circulation compared with healthy controls. These PEVs result in abundant thrombin generation, increased platelet aggregation, decreased bleeding times, and decreased hemorrhage in uncontrolled bleeding. Conversely, PEVs contributed to enhanced venous thrombus formation and were recruited to the developing thrombus site. Interestingly, HCQ treatment resulted in decreased platelet aggregation, decreased PEV release, and reduced deep vein thrombosis burden in mice. Conclusions These data demonstrate that trauma results in significant release of PEVs which are both pro‐hemostatic and pro‐thrombotic. The effects of PEVs can be mitigated by treatment with HCQ, suggesting the potential use as a form of deep vein thrombosis prophylaxis.
BACKGROUND Increases in plasma von Willebrand Factor (VWF) levels, accompanied by decreases in the metalloprotease ADAMTS13, have been demonstrated soon after traumatic injury while downstream effects remain unclear. STUDY DESIGN AND METHODS A cohort of 37 injured trauma patients from a randomized control trial investigating the use of prehospital plasma transfusion were analyzed for activity and antigen levels of ADAMTS13 and VWF at 0 and 24 hours after admission. Relevant clinical data were abstracted from the medical records. Trauma patient plasma was analyzed via agarose gel electrophoresis to evaluate the effects of injury on VWF multimer composition compared to healthy controls. RESULTS von Willebrand factor levels were elevated at presentation (189% [110%‐263%] vs. 95% [74%‐120%]), persisting through 24 hours (213% [146%‐257%] vs. 132% [57%‐160%]), compared to healthy controls. Ultralarge VWF (UL‐VWF) forms were elevated in trauma patients at both 0 and 24 hours, when compared to pooled normal plasma (10.0% [8.9%‐14.3%] and 11.3% [9.1%‐21.2%], respectively, vs. 0.6%). Circulating plasma ADAMTS13 activity was decreased at 0 hours (66% [47%‐86%] vs. 100% [98%‐100%]) and at 24 hours (72.5% [56%‐87.3%] vs. 103% [103%‐103%]) in trauma patients. ADAMTS13 activity independently predicted the development of coagulopathy and correlated with international normalized ratio, thromboelastography values, injury severity, and blood product transfusion. CONCLUSION Traumatic injury is associated with acute coagulopathy that is characterized by increased UL‐VWF multimers and reduction in ADAMTS13, which correlates with blood loss, transfusion requirement, and injury severity. These findings suggest the potential for future trials targeting ADAMTS13 repletion to enhance clearance of VWF multimers.
Introduction: Increases in plasma von Willebrand Factor (vWF) levels, accompanied by decreases in its respective metalloprotease, ADAMTS13, have been demonstrated in diseases of microvascular injury. We hypothesized that following severe trauma, a burst of ultra-large vWF (UL-vWF) is released into the bloodstream by damaged endothelium, resulting in increased thrombogenicity due to circulating vWF multimers. We further hypothesized that traumatic injury would lead to a deficit of ADAMTS13, promoting the accumulation of UL-vWF forms and, ultimately, the increased risk of microvascular disease, such as acute kidney injury (AKI). Methods: A cohort of 37 severely injured trauma patients was analyzed for antigen levels of plasma vWF and ADAMTS13 at 0- and 24-hours after admission. Circulating vWF multimeric composition from both time points was determined by vertical agarose gel electrophoresis. Multivariate analyses were performed with data abstracted from the electronic medical records to identify further dependences. A similar analysis was also performed on plasma from a cohort of 8 patients with trauma induced AKI at 0-, 24-, and 72-hours after admission; these patients were well matched against trauma patients without AKI. Finally, we utilized a murine model of polytrauma and hemorrhage, in conjunction with qRT-PCR of ADAMTS13 in total liver RNA, to specifically address how the expression of ADAMTS13 is altered by the systemic effects of traumatic injury. Results: Circulating vWF levels were increased in severe trauma patients when compared to healthy controls at presentation (189% (110-263) vs. 95% (74-120)) and persisted through 24-hours (213% (146-257) vs. 132% (57-160)). Ultra-large vWF forms were elevated at both 0- and 24-hours when compared to pooled normal plasma ((10.0% (8.9-14.3) and 11.3% (9.1-21.2), respectively, vs 0.6%). The largest vWF forms within trauma patient plasma circulated at 33±4 dimers vs 18±1 dimer in length within pooled normal plasma. Severe trauma patient ADAMTS13 activity was decreased at 0-hours (66% (47-86) vs. 100% (98-100)) and at 24-hours (72.5% (56-87.3) vs 103% (103-103)) when compared to healthy patients. Furthermore, the proportion of circulating low molecular weight multimeric (LMWM) vWF to total circulating vWF forms was directly dependent upon ADAMTS13 activity at 24-hours (Decreased ADAMTS13 Activity: 20.4% (15.0-22.7) LMWM vWF vs Normal Activity: 25.8% (22.7-35.2) LMWM vWF). Strikingly, ADAMTS13 activity independently predicted the development of coagulopathy, correlating with presentation INR (ρ =-0.63), activated clotting time of thromboelastography (TEG) (ρ=-0.36), and TEG maximum amplitude (ρ=0.36). ADAMTS13 activity also closely correlated with injury severity (ISS) (ρ=-0.34) and blood product transfusion (ρ =-.45). The cohort of 8 trauma patients who went on to develop AKI showed a 1.54-fold (1.02-2.05) increase in plasma vWF antigen levels between 0 and 72 hours, while those who did not develop AKI showed no change in vWF levels over this time period. Furthermore, those who developed AKI demonstrated a smaller proportion of LMWM vWF in plasma than those who did not (25.4% (23.4-28.0) vs 31.2% (27.2-35.6)), suggesting the increased thrombogenicity of their circulating vWF forms. Finally, qRT-PCR of total liver RNA in 6 mice demonstrated a 2-fold decrease in ADAMTS13 RNA expression levels between the times immediately before and 24-hours after trauma. Altogether, these data indicate that both circulating ADAMTS13 and its production are deficient in the days following severe injury. Conclusions: Severe traumatic injury alters the circulating composition of ADAMTS13 and its target, vWF, shifting their equilibrium to one that promotes thrombosis. Not only is the concentration of circulating ADAMTS13 decreased following traumatic injury, but hepatic expression of the enzyme is lacking as well. In the immediate moments following injury, these mechanisms contribute to life-saving hemostasis; however, as these changes extend into the following days, the early hemostatic benefit quickly shifts to burden that may exacerbate microvascular disease. Disclosures Ragni: Bioverativ/Sanofi: Consultancy, Research Funding; Sangamo: Research Funding; Shire/Takeda: Consultancy, Other: Study drug; Alnylam/Sanofi: Consultancy, Research Funding; Bayer: Consultancy; Spark Therapeutics: Consultancy, Research Funding; ICER: Consultancy; OPKO: Research Funding; Biomarin: Consultancy, Research Funding. Rollins-Raval:Bayer, Inc: Membership on an entity's Board of Directors or advisory committees. Raval:Sanofi: Membership on an entity's Board of Directors or advisory committees; Bayer, Inc: Research Funding. Neal:Janssen Pharmaceuticals: Consultancy, Membership on an entity's Board of Directors or advisory committees; CSL Behring: Membership on an entity's Board of Directors or advisory committees.
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