Hemoglobin multiple emulsion as an oxygen delivery system.

Multiple emulsion technology provides a mechanism for the encapsulation and in vivo delivery of drugs, proteins, and other materials which would otherwise be degraded, cleared rapidly, or toxic to the host. These feasibility studies were performed to evaluate a prototype Hb multiple emulsion as a stable oxygen delivery system. A concentrated solution of hemoglobin (Hb) was encapsulated in the form of a Hb-in-oil-in-water (Hb/O/W) multiple emulsion. Studies using mineral oil demonstrated that Hb multiple emulsions have several important characteristics that are compatible with utility as a blood substitute. These include: satisfactory rheological properties and good hydrodynamic stability compared to whole blood, high encapsulation concentration of Hb and high encapsulation efficiency with little met-hemoglobin generation, and satisfactory oxygen affinity and cooperativity compared to whole blood. Isovolemic exchange transfusions of Hb/O/W multiple emulsion can support life in rats whose hematocrit has been reduced to levels (5% or lower) that are incompatible with survival, and induces no acute toxicity. These results are consistent with the utility of Hb/O/W as an oxygen-carrying red blood cell substitute or organ perfusion media.