Pathogen Safety of a New 20% Liquid Immunoglobulin Product

Immune globulin subcutaneous (human) 20%: in primary immunodeficiency disorders

Immune globulin subcutaneous 20% is a new high-concentration (200 g/L) solution of highly purified human IgG (≥98%) indicated in the EU and the US for antibody replacement therapy in patients with primary immunodeficiency with antibody deficiency, and in the EU for replacement therapy in humoral immunodeficiency secondary to myeloma or chronic lymphocytic leukaemia.

Immune globulin subcutaneous 20% is formulated with L-proline, which imparts long-term stability at room temperature and a relatively low viscosity.

In two pivotal phase III trials in stably treated patients with primary immunodeficiency, immune globulin subcutaneous 20% at weekly subcutaneous dosages either equivalent to each patient’s previous intravenous or subcutaneous replacement therapy, or providing equivalent systemic exposure to previous intravenous therapy, produced mean serum IgG trough levels equal to or greater than pre-study levels. In each trial, there were no serious bacterial infections during treatment throughout the 28-week or 12-month efficacy periods. The rates of infectious episodes, days missed from work/school, days hospitalized or days with antibiotics were low.

Immune globulin subcutaneous 20% was generally well tolerated. A high proportion of patients experienced local infusion-site reactions, but infusion-related systemic adverse events were relatively infrequent. Most adverse events were of mild or moderate intensity and did not interfere with therapy.

Contribution to safety of immunoglobulin and albumin from virus partitioning and inactivation by cold ethanol fractionation: a data collection from Plasma Protein Therapeutics Association member companies

BACKGROUND

Virus removal by partitioning into different fractions during cold ethanol fractionation has been described by several authors, demonstrating that cold ethanol fractionation can provide significant contribution to virus removal, even in those cases where virus removal is limited and must be supported by additional measures for virus inactivation during further processing.

STUDY DESIGN AND METHODS

Plasma Protein Therapeutics Association (PPTA) member companies collected and evaluated 615 studies on virus removal by the steps of the cold ethanol fractionation process. The studies describe the precipitation and separation of Fraction (F)III or FI/III in the immunoglobulin fractionation process and precipitation and separation of FII/III, FI/II/III, and FIV/IV in the albumin fractionation process.

RESULTS

The data indicate a significant contribution of cold ethanol fractionation to the overall clearance of a broad spectrum of viruses, at varied process variables such as pH, temperature, and alcohol concentration and demonstrate the robustness of virus removal by the cold ethanol fractionation process.

CONCLUSIONS

The data presented here support the importance of the partitioning steps for virus safety for immunoglobulins and albumin. However, virus removal by cold ethanol fractionation alone cannot provide viral safety of human albumin and immunoglobulins and therefore must be completed by other virus inactivation and removal procedures.