Ina Pahl scite author profile

Extractables and leachables characterization supports the validation and the use of single-use bags in the biopharmaceutical manufacturing process. This paper describes an approach for the identification and quantification of extractable substances for five commercially available single-use bags from different suppliers under identical analytical conditions. Four test formulations were used for the extraction, and extractables were analyzed with appropriately qualified analytical techniques, allowing for the detection of a broad range of released chemical compounds. Polymer additives such as antioxidants and processing aids and their degradation products were found to be the source of most of the extracted compounds. The concentration of extractables ranged from parts-per-billion to parts-per-million under the applied extraction conditions.

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Theoretical and Practical Considerations When Selecting Solvents for Use in Extractables Studies of Polymeric Contact Materials in Single-Use Systems Applied in the Production of Biopharmaceuticals

Dorey¹,

Pahl

Uettwiller³

et al. 2018

Ind. Eng. Chem. Res.

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Regulatory authorities require the biopharmaceutical industry to demonstrate that extractables that may migrate from production systems do not alter the safety, efficacy, potency, or purity of drug products. Extractables studies of polymeric materials used in production systems and in particular single-use systems are designed to show material safety and should support the users to perform risk-based toxicological assessment of leachables that could potentially enter into the final product under process conditions. In this paper, we intend to improve the understanding of solvent–polymer interactions and thereby allow the prediction of extractables from a range of fluids based on their chemical properties. The possibility to predict solvent–polymer interactions and polymer swelling in biopharmaceutical applications based on solubility parameters is introduced.

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Comparative Extractables Study of Autoclavable Polyethersulfone Filter Cartridges for Sterile Filtration

Menzel

Pahl

Loewe

et al. 2018

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Sterile filters are ubiquitous in biopharmaceutical manufacturing processes. Because such filters are in direct contact with the process fluid, profiling of the extractables is of utmost importance. The work presented here reveals the extractables profile from filter cartridges for sterilizing-grade filtration, which were obtained from six different vendors. All filters contain a 0.2 μm polyethersulfone membrane for sterile filtration combined with a polyethersulfone pre-filter with retention rates spanning from 0.4 to 0.6 μm. These filter cartridges are designed for use in stainless steel housings which allow for in-line steam sterilization. A combination of different analytical techniques such as (headspace) gas chromatography-mass spectrometry, ultra-performance liquid chromatography-high-resolution mass spectrometry (electrospray ionization), inductively coupled plasma mass spectrometry, total organic carbon, non-volatile residue, conductivity, and pH value were applied to develop a comprehensive extractables profile on a qualitative and semi-quantitative basis. Pure ethanol and purified water were used as extraction media. The extractables profile consisted of various polyolefin-related extractables, additives such as antioxidants and degradation products thereof, hydrocarbons, and processing aids in addition to membrane-related extractables. Filter cartridges or other filter products for sterile filtration are currently most commonly made of polymeric materials such as polypropylene, and a filter membrane material such as polyethersulfone. These materials will usually release chemical substances upon extraction in the laboratory (), or upon application in biopharmaceutical processing (). Potential extractables and leachables are additives used to tailor the physicochemical properties and to protect the polymeric materials, or degradants of these substances, or they arise from substances used during the manufacturing of the filter cartridges. Multiple analytical techniques were applied here to investigate the concentration and chemical nature of extractables obtained upon application of two distinct extraction solvents. Typical extractables found were antioxidants or releasing agents in addition to compounds originating from the polyethersulfone membrane.

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Ina Pahl

Identification and evaluation of cell- growth-inhibiting bDtBPP-analogue degradation products from phosphite antioxidants used in polyolefin bioprocessing materials

Analysis and Evaluation of Single-Use Bag Extractables for Validation in Biopharmaceutical Applications

Theoretical and Practical Considerations When Selecting Solvents for Use in Extractables Studies of Polymeric Contact Materials in Single-Use Systems Applied in the Production of Biopharmaceuticals

Comparative Extractables Study of Autoclavable Polyethersulfone Filter Cartridges for Sterile Filtration

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