Hemorrhagic shock resuscitation with carbon monoxide saturated blood

Abstract

The response to exchange transfusion with red blood cells (RBCs) saturated with carbon monoxide (CO) in amelioration of microvascular function and providing tissue protection in hemorrhagic shock resuscitation was investigated in the hamster chamber window model. Shock was induced by the withdrawal of 50% of blood volume (BV). Blood volume was restored 1 h after hemorrhage with a single volume infusion (resuscitation) of 25% BV with fresh RBCs (saturated or unsaturated with CO) suspended in human serum albumin (HSA). Hemorrhage, shock and resuscitation were monitored continuously in terms of mean arterial pressure (MAP), microvascular blood flow, capillary perfusion and systemic gas parameters. Eight hours after resuscitation, Annexin V and propidium iodide (PI) were injected into the window chamber to study tissue viability, and labeled cells were observed by using intravital epifluorescence microscopy. TUNEL staining was performed on the tissue to confirm in vivo results. Systemic and microvascular restoration were not different with or without CO up to 90 min after resuscitation. CO concentration decreased over 90 min, increasing oxygen carrying capacity and gradually reoxygenating the tissue. CO saturated blood partially mitigated cell injury at 8 h after resuscitation. The precise cellular mechanisms involved require further elucidation. CO is a novel experimental strategy to improve tissue viability and requires the appropriated preclinical studies to confirm its efficacy.