Complement activation and the toxicity of stroma-free hemoglobin solutions in primates
Feola, M.; Simoni, J.; Dobke, M.; Canizaro, P.C.
Circulatory Shock 25(4): 275-290
1988
ISSN/ISBN: 0092-6213 PMID: 3168173 Document Number: 306639
The toxicity of hemoglobin solutions was studied in the context of their ability to activate serum complement (C). Three bovine polymerized hemoglobin solutions (BPHSs) with different degrees of purity were used for experiments in vitro and in vivo. BPHS-1 contained bacterial endotoxins (E) (5 EU/ml) and stromal phospholipids (PLs) (1.2 mg/dl), BPHS-2 contained only PLs (2.0 mg/dl), while BPHS-3 was completely free of both contaminants. C-activation was studied by the direct measurement of C3a, C4a, and C5a des Arg fragments, using commercially available RIA kits. During 1 hour of incubation with fresh monkey plasma, BPHS-1 and -2 activated both pathways of C, while BPHS-3 caused no activation of any factor. In vivo, Hb solutions were used to replace one-third of blood volume in three groups of six Coebus monkeys each, while fresh homologous plasma was used in a control group of four animals. Impure solutions activated the alternative pathway of C and caused significant reactions of the circulating blood (thrombocytopenia, leukopenia, and disseminated intravascular coagulation) associated with multiorgan dysfunction (cardiac arrhythmias, hypoxemia, reduction of renal clearance of endogenous creatinine, and elevation of liver enzyme SGPT). The pure solution neither activated C nor caused any reaction in the circulating blood. However, it caused a moderate degree of direct tissue injury, evidenced by transient reduction of creatinine clearance and elevation of SGPT. These observations suggest that impure and pure Hb solutions carry separate mechanisms of toxicity. Complement, activated by toxic impurities, plays an active role in the toxicity of impure solutions. C-activation in vitro could be used as a screening test of biocompatibility.