In some embodiments, the invention provides a method for extracting at least 55% of immunoglobulin such as IgG present in a biological fluid from the biological fluid, comprising contacting a biological fluid suspected of containing immunoglobulin with a solid support covalently bonded to a ligand that specifically binds to immunoglobulin under conditions sufficient for non-covalent binding of immunoglobulin to the ligand; and contacting the solid support with an elution solution under condition whereby the non-covalently bound immunoglobulin is released from the ligand and into the elution solution, wherein at least 55% of the IgG present in the biological fluid is extracted into the elution solution. In some embodiments, the invention provides a method for enriching immunoglobulin from a biological fluid comprising obtaining an initial biological fluid suspected of containing immunoglobulin and removing non-immunoglobulin components naturally occurring in the initial biological fluid to obtain a non-immunoglobulin component-reduced biological fluid. The invention further provides a containers, such as a bags and columns, and apheresis systems for performing or use in the methods.

A plasmapheresis system and a method for operating a plasmapheresis system are provided by which the reservoir for the concentrated red blood cells (RCC) has a first chamber for receiving anticoagulant used for priming the separator and purging the system of air prior to the initial draw cycle and a second chamber for receiving separated red blood cells. Because the entire volume of second chamber of the RCC reservoir may now receive separated red blood cells and no AC prime volume, a greater amount of whole blood may be processed in the first draw cycle, thus resulting in a greater total volume of Immunoglobulin G (IgG) being collected during the plasmapheresis procedure.

The invention relates to a blood treatment device configured to remove anti-neutrophil cytoplasmic antibodies (ANCAs) from the blood or blood plasma of a person in need thereof in an extracorporeal blood circuit, wherein the device comprises a matrix, and wherein said matrix comprises a monomeric form of proteinase 3 (PR3). The invention further relates to an extra-corporeal blood circuit comprising a blood treatment device of the invention and to the blood treatment device for use as a medicament or to methods of treating a medical condition associated with ANCA.

In some embodiments, the invention provides a method for extracting at least 55% of immunoglobulin such as IgG present in a biological fluid from the biological fluid, comprising contacting a biological fluid suspected of containing immunoglobulin with a solid support covalently bonded to a ligand that specifically binds to immunoglobulin under conditions sufficient for non-covalent binding of immunoglobulin to the ligand; and contacting the solid support with an elution solution under condition whereby the noncovalently bound immunoglobulin is released from the ligand and into the elution solution, wherein at least 55% of the IgG present in the biological fluid is extracted into the elution solution. In some embodiments, the invention provides a method for enriching immunoglobulin from a biological fluid comprising obtaining an initial biological fluid suspected of containing immunoglobulin and removing non-immunoglobulin components naturally occurring in the initial biological fluid to obtain a non-immunoglobulin componentreduced biological fluid.

A plasmapheresis system and a method for operating a plasmapheresis system are provided by which the reservoir for the concentrated red blood cells (RCC) has a first chamber for receiving anticoagulant used for priming the separator and purging the system of air prior to the initial draw cycle and a second chamber for receiving separated red blood cells. Because the entire volume of second chamber of the RCC reservoir may now receive separated red blood cells and no AC prime volume, a greater amount of whole blood may be processed in the first draw cycle, thus resulting in a greater total volume of Immunoglobulin G (IgG) being collected during the plasmapheresis procedure.