Abstract

Hemoglobin glutamer-200 (HbG) might be an alternative to human blood. However, artificial oxygen carriers are initially successful to restore oxygen supply but may induce organ dysfunction and increase mortality several days after application in terms of delayed side effects. Impairment of microcirculation and an inflammatory cytokine response through induction of endothelin (ET) 1 may contribute. We investigated the role of HbG for the therapy of hemorrhagic shock and for delayed side effects in a model of hemorrhagic shock and reperfusion (H/R). To analyze early effects, Sprague-Dawley rats (n = 8/group) were resuscitated after hemorrhagic shock (1 h) with shed blood or HbG followed by reperfusion (2 h). Hemorrhagic shock and reperfusion decreased liver microcirculation and hepatic function in both shock groups to the same extent. Thus, HbG was not superior to shed blood regarding resuscitation end points after hemorrhagic shock. To determine delayed effects, rats (n = 8/group) were pretreated with Ringer's solution (vehicle) or HbG (1 g/kg) 24 h before H/R. Endothelin receptors were blocked with bosentan. Subsequently, ET-1 expression, inflammatory response, sinusoidal perfusion, hepatocellular function (plasma disappearance rate of indocyanine green [PDRICG]), and redox state [NAD(P)H] were analyzed. After vehicle pretreatment, H/R increased ET-1, hepatocellular injury, NAD(P)H, and cytokine levels. Sinusoidal perfusion and PDRICG decreased. After HbG pretreatment, a further increase of ET-1 and hepatocellular injury was observed, whereas PDRICG further decreased. Application of bosentan after HbG but not after vehicle pretreatment significantly improved PDRICG and liver perfusion, whereas NAD(P)H and hepatocellular injury decreased. Furthermore, cytokine release changed to an anti-inflammatory response. These data suggest an HbG-dependent increase of ET-1, which may contribute to delayed side effects under shock conditions.

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