Independent evaluation of tolerance of therapeutic plasma inactivated by amotosalen-HCl-UVA (Intercept ™) over a 5-year period of extensive delivery.

Amotosalen-HCl-UVA (AI) is a process to inactivate pathogens in therapeutic plasma (FFP). Tolerance is the main residual issue in FFP transfusion, and only large series observations are powered enough to identify significantly elevated levels of hazards. We report here on 15,133 new transfusions of AI-FFP, over the previously published 36,035, which in all represents one of the largest series observed by means of a highly standardized surveillance (51.

[The different types of therapeutic plasma are equivalent?].

In France, three varieties of therapeutic plasma are being processed, distributed and delivered, currently; however, many more varieties are in use worldwide, which go by the property of labile blood component or plasma derived medicines. For one type of component (one given name), several devices and bags and so on are used to concur to its process, which makes that one type of therapeutic plasma may significantly differ from one production setting to one other. This may affect (more or less) the component properties as well as the possibly reported adverse events.

A regional haemovigilance retrospective study of four types of therapeutic plasma in a ten-year survey period in France.

Background And Objectives: Our objective was to compare the frequency of adverse events (AEs) due to any of the 4 types of fresh-frozen plasma (FFP) prepared and delivered by the French Blood Establishment (EFS) over a 10-year period. Surveillance of AEs and vigilance was performed according to a homogeneous policy. The four types of FFP comprised of one type (methylene blue [MB) that was stopped since then and of another type [amotosalen (AI)] that was recently introduced, along with two conventional products [quarantine (Q) and solvent-detergent (SD)].

[Pediatric transfusion practices: A single-center retrospective study].

Objectives: This study aimed to describe the professional practices in pediatric transfusion to assess the accuracy of transfusion guidelines in children.

Methods: The study retrospectively analyzed the characteristics of all the pediatric transfusions prescribed in the Clermont-Ferrand (France) university hospital center over 1 year and determined whether they conformed to the national guidelines.

Results: One thousand six hundred and seven blood products were delivered to 233 children (806 red cell units, 670 platelet units, and 131 plasma units), accounting for 5.

[Pathogen inactivation of platelets: organization consequences for platelet transfusion].

In the past few years, pathogen reduction technologies for labile blood products have been part of the enhancement of global transfusion safety regarding residual risks of transmitting infectious pathogens. Having carried out a feasibility study for the implementation of pathogen inactivation of platelet concentrates by means of the amotosalen/HCl/UVA (Intercept™) technology, and participated to a reinforced haemovigilance study, we took the opportunity to analyze the organization consequences for platelet concentrates inventory and distribution. This impact study first indicated that those novel needs forced the blood donation service, as well as the labile blood product preparation laboratory, to review and improve practices; secondly, it showed that the routine implementation has little (no major) consequence in the overall organization, independently of the economic consequences (not covered here).