2015
DOI: 10.1016/j.jss.2015.01.046
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Shock releases bile acidinducing platelet inhibition and fibrinolysis

Abstract: Introduction Metabolites are underappreciated for their effect on coagulation. Taurocholic acid (TUCA), a bile acid, has been shown to regulate cellular activity and promote fibrin sealant degradation. We hypothesize that TUCA impairs whole blood clot formation and promotes fibrinolysis. Methods TUCA was exogenously added to whole blood obtained from volunteers. A titration from 250 μM to 750 μM was utilized due to biologic relevance. Whole blood mixtures were assayed using thrombelastography (TEG) for clot … Show more

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Cited by 34 publications
(36 citation statements)
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“…This is relevant in the light of the role of succinate as a marker of mortality in critically ill patients in the military 21 and civilian population 22 , and the increasingly appreciated role succinate plays in (postshock) inflammatory responses 3 and trauma-induced coagulopathy. 8 Appreciation of the limited contribution of glutaminolysis to hemorrhagic RBC succinate in this model suggests that, analogously to previous observations in ischemic rodents, 16 other substrates may fuel hemorrhagic succinate accumulation. For example, increased proteolysis results in increased availability of circulating free amino acids that can be metabolized to succinate through alternative reactions, such as glutamate, isoleucine, valine, methionine, threonine.…”
Section: Discussionsupporting
confidence: 78%
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“…This is relevant in the light of the role of succinate as a marker of mortality in critically ill patients in the military 21 and civilian population 22 , and the increasingly appreciated role succinate plays in (postshock) inflammatory responses 3 and trauma-induced coagulopathy. 8 Appreciation of the limited contribution of glutaminolysis to hemorrhagic RBC succinate in this model suggests that, analogously to previous observations in ischemic rodents, 16 other substrates may fuel hemorrhagic succinate accumulation. For example, increased proteolysis results in increased availability of circulating free amino acids that can be metabolized to succinate through alternative reactions, such as glutamate, isoleucine, valine, methionine, threonine.…”
Section: Discussionsupporting
confidence: 78%
“…3 Deregulation of metabolism following HS is a long-established concept. 4 Metabolic aberrations following hemorrhage can indeed predispose the body to inflammatory [5][6][7] and coagulopathic 8 complications. Understanding these mechanisms may soon provide actionable targets to improve short-and long-term outcomes in severely hemorrhaged patients in the civilian and military settings, for example, by determining whether early administration of plasma rather than normal saline can improve survival and metabolic recovery in humans, in like fashion to observations in a rodent model of profound HS.…”
Section: Introductionmentioning
confidence: 99%
“…At the same time, metabolic approaches are key in defining effective resuscitation strategies to meet the increased physiologic demands of critically injured patients by providing specific metabolic substrates such as glutamine 12,2527 and arginine 2832 , either alone or in combination with omega-3 fatty acids and nucleotides 33 . Recently, we applied metabolomics technologies to delineate the metabolic derangements in hemorrhaged rodents and critically ill patients to identify shared perturbations of the post-shock metabolic pathways observed in the animal model and the clinical setting 4,6,10,13 . After confirming the potential clinical relevance of the rodent model, we moved to defining the time course development of metabolic derangements in plasma after early mild hemorrhage and late severe HS 10 .…”
Section: Discussionmentioning
confidence: 99%
“…These observations from our and other groups suggest the potential significance of TCA cycle intermediates accumulating in post-shock plasma with respect to metabolic acidosis 10,13,3436 . Recent observations indicate a role for ischemic hypoxia-derived succinate in inflammation 3,16 , and for post-shock plasma succinate levels in fibrinolysis in rodents and humans 6 . Consequently, we performed stable isotope tracing experiments with heavy glucose and glutamine in vivo in rodents to determine the metabolic origin of these TCA cycle compounds 5,12 .…”
Section: Discussionmentioning
confidence: 99%
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