2017
DOI: 10.1097/ta.0000000000001436
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Hemorrhagic blood failure

Abstract: Our understanding of the events taking place within the blood following severe injury with hemorrhagic shock is quickly evolving. Traditional concepts have given way to a detailed and nuanced understanding of coagulopathy, bleeding, and shock at the cellular and biochemical levels. In doing so, the tremendous complexity of events taking place within the blood have been illuminated and present an additional challenge. In this review, we seek to understand shock, endotheliopathy, and coagulopathy not as isolated… Show more

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Cited by 89 publications
(33 citation statements)
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“…In addition, the abundance of the bioactive lipid S1P, a preserver of endothelial integrity, is diminished in the plasma of patients who have suffered polytrauma; this unleashes metalloproteinase activity that contributes to damage to protective GAGs 66 . The resultant increasingly leaky endothelial barrier defines trauma-induced endotheliopathy 50,61,64 , which promotes the development of edema that hinders oxygen transport and aggravates hypoxic conditions 67 . The shed GAGs, such as syndecan-1 and heparan sulfate, can temporarily stabilize hemodynamics after trauma (‘autotransfusion’) 61 , exhibit heparinlike anti-coagulatory effects (‘autoheparinization’) 64,68 and inhibit the antibacterial activity of plasma and thereby promote infection 69 .…”
Section: Interaction Of Innate Immunity With the Endothelium After Trmentioning
confidence: 99%
“…In addition, the abundance of the bioactive lipid S1P, a preserver of endothelial integrity, is diminished in the plasma of patients who have suffered polytrauma; this unleashes metalloproteinase activity that contributes to damage to protective GAGs 66 . The resultant increasingly leaky endothelial barrier defines trauma-induced endotheliopathy 50,61,64 , which promotes the development of edema that hinders oxygen transport and aggravates hypoxic conditions 67 . The shed GAGs, such as syndecan-1 and heparan sulfate, can temporarily stabilize hemodynamics after trauma (‘autotransfusion’) 61 , exhibit heparinlike anti-coagulatory effects (‘autoheparinization’) 64,68 and inhibit the antibacterial activity of plasma and thereby promote infection 69 .…”
Section: Interaction Of Innate Immunity With the Endothelium After Trmentioning
confidence: 99%
“…Anticoagulants interfere with the normal hemostatic process and lead to excessive bleeding and hematoma expansion after a disruption in the vessel wall integrity and alteration in vascular endothelium. This could happen from mechanical causes (trauma, tumor invasion, thrombosis, hypertension, invasive vascular procedures) or from an alteration in the endothelial cell barrier function (sepsis, hypoxia, ischemia, drugs like nonsteroidal anti-inflammatory drugs (NSAIDs), chemotherapeutic agents, infections, etc.,) [48]. Microbleeds are common in the brain and can also occur in other organs like the mucosal lining of the gastrointestinal tract.…”
Section: Bleeding Severitymentioning
confidence: 99%
“…Risk factors for spontaneous hemorrhage in patients receiving direct oral anticoagulants[7,48,49,62,66].…”
mentioning
confidence: 99%
“…A systemic hypoxia may also contribute to endothelial injury causing destabilization of homeostasis and barrier disruption by promoting release of angiopoietins, TF, PAI-1, soluble TM, vWF, and tPA. 84 In severely injured patients, high levels of a marker of significant glycocalyx disruption, syndecan-1, can be detected in ~5% of patients with ACOT. 85 After adjusting for ISS, syndecan-1 independently predicts increased mortality.…”
Section: Acute Coagulopathy Of Traumamentioning
confidence: 99%