Verification of a new biocompatible single-use film formulation with optimized additive content for multiple bioprocess applications

Verification of a new biocompatible single-use film formulation with optimized additive content for multiple bioprocess applications

Single‐use bioprocessing bags and bioreactors gained significant importance in the industry as they offer a number of advantages over traditional stainless steel solutions. However, there is continued concern that the plastic materials might release potentially toxic substances negatively impacting...

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Veröffentlicht in:Biotechnology progress 2014-09, Vol.30 (5), p.1171-1176
Hauptverfasser: Jurkiewicz, Elke, Husemann, Ute, Greller, Gerhard, Barbaroux, Magali, Fenge, Christel
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Bioreactors
Cell Count
Cell Culture and Tissue Engineering
Cell Culture Techniques - instrumentation
Cell Survival - drug effects
cell-based assay
CHO Cells
Cricetulus
Culture Media
disposables
leachables
Organophosphates - toxicity
Polymers - toxicity
single-use systems
Time Factors
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container_end_page 1176
container_issue 5
container_start_page 1171
container_title Biotechnology progress
container_volume 30
creator Jurkiewicz, Elke
Husemann, Ute
Greller, Gerhard
Barbaroux, Magali
Fenge, Christel
description Single‐use bioprocessing bags and bioreactors gained significant importance in the industry as they offer a number of advantages over traditional stainless steel solutions. However, there is continued concern that the plastic materials might release potentially toxic substances negatively impacting cell growth and product titers, or even compromise drug safety when using single‐use bags for intermediate or drug substance storage. In this study, we have focused on the in vitro detection of potentially cytotoxic leachables originating from the recently developed new polyethylene (PE) multilayer film called S80. This new film was developed to guarantee biocompatibility for multiple bioprocess applications, for example, storage of process fluids, mixing, and cell culture bioreactors. For this purpose, we examined a protein‐free cell culture medium that had been used to extract leachables from freshly gamma‐irradiated sample bags in a standardized cell culture assay. We investigated sample bags from films generated to establish the operating ranges of the film extrusion process. Further, we studied sample bags of different age after gamma‐irradiation and finally, we performed extended media extraction trials at cold room conditions using sample bags. In contrast to a nonoptimized film formulation, our data demonstrate no cytotoxic effect of the S80 polymer film formulation under any of the investigated conditions. The S80 film formulation is based on an optimized PE polymer composition and additive package. Full traceability alongside specifications and controls of all critical raw materials, and process controls of the manufacturing process, that is, film extrusion and gamma‐irradiation, have been established to ensure lot‐to‐lot consistency. © 2014 The Authors. Published by Wiley Periodicals, Inc. on behalf of American Institute of Chemical Engineers Biotechnol. Prog., 30:1171–1176, 2014
doi_str_mv 10.1002/btpr.1934
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subjects Animals
Bioreactors
Cell Count
Cell Culture and Tissue Engineering
Cell Culture Techniques - instrumentation
Cell Survival - drug effects
cell-based assay
CHO Cells
Cricetulus
Culture Media
disposables
leachables
Organophosphates - toxicity
Polymers - toxicity
single-use systems
Time Factors
title Verification of a new biocompatible single-use film formulation with optimized additive content for multiple bioprocess applications
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