Polymerized Hemoglobin With Increased Molecular Size Reduces Toxicity in Healthy Guinea Pigs.

ABSTRACT

Hemoglobin (Hb)-based oxygen (O2) carriers (HBOCs) have been developed as an alternative to red blood cells (RBCs) for use in transfusion medicine. HBOCs have many benefits over RBCs; however, previous generations of HBOCs failed in clinical trials due to unanticipated cardiotoxicity. These problems likely originated from vasoconstriction, hypertension, oxidative stress, and the presence of low-molecular-weight (MW) Hb species in the HBOC formulation. Therefore, the objective of this study is to compare the toxicity of small-MW Polymerized bovine Hb (SPolyHb) to large-MW Polymerized bovine Hb (LPolyHb) in guinea pigs, since they lack the ability to synthesize vitamin C and are more sensitive to oxidative stress than other preclinical animal models. The two PolyHbs used in this study have similar molecular diameters (72 and 69 nm, respectively), but the SPolyHb included approximately 15% Hb polymers with MW below 256 kDa, which were significantly removed from LPolyHb. Solutions were injected as a hypervolemic (topload) infusion of 10% of the blood volume into animals. SPolyHb caused a 50% elevation in mean arterial pressure (MAP) from the baseline, while LPolyHb caused only a small increase in MAP. Both PolyHbs also increased markers of organ damage and tissue and systemic inflammation compared to controls. SPolyHb caused significant changes in tissue function and vital organ toxicity markers compared to LPolyHb, specifically markers related to kidney, liver, and lung injury and systemic inflammation and iron transport by the reticuloendothelial system. LPolyHb had a longer half-life than SPolyHb, which correlates with observations made in the reticuloendothelial and iron transport systems. These studies indicate that the molecular size of PolyHb determines vasoactivity, circulation time, mechanism of elimination, toxicity, and inflammation induced by its infusion.