Abstract

This paper discusses the separation of human serum albumin (HSA), the most abundant protein present in plasma from human immunoglobulin G (HIgG) by membrane chromatography using a novel macroporous gel-filled membrane (designated Q Type 2). The membrane was prepared by anchoring a quaternary ammonium salt macroporous gel within the pores of a non-woven, polypropylene fabric. Factors affecting HSA binding were examined and operating conditions suitable for separating it from human plasma were identified. At an optimized condition, the HSA binding capacity of this novel membrane under saturating conditions was in the range of 290–300 mg/ml. This was not only significantly higher than binding capacities reported for other chromatographic membranes, but also higher than binding capacities of conventional gel based chromatographic media. The protein binding capacity was also largely insensitive to the superficial velocity, indicating the dominance of convective protein transport to and from the binding sites. The suitability of using this membrane for plasma fractionation was demonstrated by the separation of a simulated feed solution consisting of HSA and HIgG.

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