• Eur J Trauma Emerg Surg · Apr 2023

    Hemorrhagic shock and tissue injury provoke distinct components of trauma-induced coagulopathy in a swine model.

    • Alexis L Cralley, Ernest E Moore, Julia R Coleman, Navin Vigneshwar, Matt Bartley, Daniel Kissau, Andrew Eitel, Patrick Hom, Sanchayita Mitra, Arsen Ghasabyan, Miguel Fragoso, Zihan Guo, Hiroshi Deguchi, John H Griffin, Mitchell J Cohen, Christopher C Silliman, Anirban Banerjee, Kirk Hansen, and Angela Sauaia.
    • Department of Surgery, University of Colorado, Aurora, CO, USA. alexis.cralley@cuanschutz.edu.
    • Eur J Trauma Emerg Surg. 2023 Apr 1; 49 (2): 107910891079-1089.

    IntroductionTissue injury (TI) and hemorrhagic shock (HS) are the major contributors to trauma-induced coagulopathy (TIC). However, the individual contributions of these insults are difficult to discern clinically because they typically coexist. TI has been reported to release procoagulants, while HS has been associated with bleeding. We developed a large animal model to isolate TI and HS and characterize their individual mechanistic pathways. We hypothesized that while TI and HS are both drivers of TIC, they provoke different pathways; specifically, TI reduces time to clotting, whereas, HS decreases clot strength stimulates hyperfibrinolysis.MethodsAfter induction of general anesthesia, 50 kg male, Yorkshire swine underwent isolated TI (bilateral muscle cutdown of quadriceps, bilateral femur fractures) or isolated HS (controlled bleeding to a base excess target of - 5 mmol/l) and observed for 240 min. Thrombelastography (TEG), calcium levels, thrombin activatable fibrinolysis inhibitor (TAFI), protein C, plasminogen activator inhibitor 1 (PAI-1), and plasminogen activator inhibitor 1/tissue-type plasminogen activator complex (PAI-1-tPA) were analyzed at pre-selected timepoints. Linear mixed models for repeated measures were used to compare results throughout the model.ResultsTI resulted in elevated histone release which peaked at 120 min (p = 0.02), and this was associated with reduced time to clot formation (R time) by 240 min (p = 0.006). HS decreased clot strength at time 30 min (p = 0.003), with a significant decline in calcium (p = 0.001). At study completion, HS animals had elevated PAI-1 (p = 0.01) and PAI-1-tPA (p = 0.04), showing a trend toward hyperfibrinolysis, while TI animals had suppressed fibrinolysis. Protein C, TAFI and skeletal myosin were not different among the groups.ConclusionIsolated injury in animal models can help elucidate the mechanistic pathways leading to TIC. Our results suggest that isolated TI leads to early histone release and a hypercoagulable state, with suppressed fibrinolysis. In contrast, HS promotes poor clot strength and hyperfibrinolysis resulting in hypocoagulability.© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany.

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