Resuscitation Fluids Modulate Sterile Inflammation in a Rodent Model of Hemorrhagic Shock

Abstract

Sterile inflammation may trigger an array of danger‐associated molecular patterns and activation of the vascular endothelium, leading to loss of vascular barrier, microvascular leakage, coagulation dysfunction, leucocyte extravasation and organ injury. In our rat hemorrhage model, we have demonstrated previously elevated cytokine levels in liver, kidney and lung along with circulating proteases and endothelial dysfunction following hemorrhagic shock (HS) and/or fluid resuscitation. We hypothesized that normal saline (NS) resuscitation after HS may sustain sterile inflammation by increasing leukocyte influx to tissues (transmigration) and net leukocyte recruitment (overall efficiency), which results in loss of barrier integrity and tissue injury, compared to HS alone or blood products. Anesthetized rats (n= 5–7/group) were bled 40% of blood volume and either left untreated (HS ONLY) for over 3h or resuscitated with NS, 45 ml/kg, or 5% Albumin (ALB), 15ml/kg. Shams rats (control) were subject to all procedures, except hemorrhage or resuscitation. Intravital microscopy was performed in over 100 cremaster venules to determine leukocyte transmigration and overall efficiency as well as blood flow, wall shear rate (WSR), endothelial glycocalyx thickness and vascular permeability. Post‐shock or post‐resuscitation blood and tissue samples were collected over 3h from onset of hemorrhage. Our HS model alone decreased blood flow and WSR more than 60% (vs. sham, Pvs. sham and ALB, P2, vs. sham, P2 per 1,000 leukocytes/μL) vs. HS ONLY (164 ± 94, P=0.04), sham (113 ± 50, P) and albumin group. In contrast, ALB normalized glycocalyx, venular blood flow and WSR, as well as restored barrier function and decreased inflammation to sham levels, compared to HEM ONLY. Fluid administration presents a therapeutic conflict between hemodynamics stabilization and detrimental effects on the endothelial and microvascular function. Iatrogenic increase in leukocyte recruitment and migration into tissues after NS sustained sterile inflammation after hemorrhagic shock and thus presents some clinically relevant deleterious effects.

Document Details

Document Type

Pub Defense Publication

Publication Date

Apr 01, 2018

Source ID

10.1096/fasebj.2018.32.1_supplement.718.8

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