[Testing of medicinal products produced from pooled plasma].

Medicinal products produced from human plasma fall under the administrative batch release procedure of the competent authority. In Germany, this has been carried out since 1995 by the Paul Ehrlich Institute (PEI), the responsible state control agency for blood products. Medicinal products released for the European and national market are tested for quality, efficacy and safety.

Identification of kallikrein and FXIa as impurities in therapeutic immunoglobulins: implications for the safety and control of intravenous blood products.

Background And Objectives: The occurrence of thromboembolic events (TEEs) with intravenous immunoglobulin lots (IVIGs) raised the question of the causative agent for these adverse events. We investigated the predominant plasma proteases in 19 IVIG lots from five manufacturers including three lots associated with adverse events.

Material And Methods: The inhibitor profile of the amidolytic activity in IVIG lots was investigated with substrates S-2302 and S-2288.

Are quality differences responsible for different adverse reactions reported for SD-plasma from USA and Europe?

Thromboembolic adverse reactions reported after transfusion of SD-plasma in the United States (US) prompted us to perform a comparative study with SD-plasma from the US and the European (EU) market. In SD-plasma from US, residual tri-N-butyl phosphate was found, and citrate concentrations were lower than in EU-plasma. Except for substantial losses of FV, FVIII and antiplasmin found for all SD-plasmas, clotting factor activities were mainly retained.

Proteomics as a tool for assessment of therapeutics in transfusion medicine: evaluation of prothrombin complex concentrates.

Background: Proteomic technologies are evolving tools to analyze complex protein patterns that to date have been rarely applied to transfusion medicine. The analysis of prothrombin complex concentrates (PCCs) was used as a model to evaluate to what extent these technologies can detect differences in blood-derived therapeutics beyond that of standard quality control.

Study Design And Methods: Three PCCs (two batches each) were individually analyzed for differences in protein content by functional assays, two-dimensional gel electrophoresis, and mass spectrometry.

Comparison of two laboratory methods for the determination of serum resistance in Borrelia burgdorferi isolates.

A growth inhibition assay (GIA) and an immunofluorescence test detecting deposited complement components C6 and C9 were compared for their ability to classify Borrelia isolates with respect to their resistance to non-immune human serum (NHS). In both assays a total of 34 Borrelia isolates of all three human pathogenic genospecies were tested. Interestingly, 95% of the serum-sensitive or intermediate serum-sensitive isolates belonged to the genospecies B.