Lisa Bareford scite author profile

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Elemental metal variance in cell culture raw materials for process risk profiling

Grinnell

Bareford

Matthews

et al. 2020

Biotechnology Progress

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Elemental metals are critical raw material attributes which can impact cell culture performance and associated therapeutic protein product quality profiles. Metals such as copper and manganese act as cofactors and reagents for numerous metabolic pathways which govern cell growth, protein expression, and glycosylation, thus mandating elemental monitoring. The growing complexity of modern cell culture media formulations adds additional opportunities for elemental variance and its associated impact risks. This article describes an analytical technique applying inductively coupled plasma mass spectrometry to characterize a list of common raw materials and media powders used in mammalian cell culture and therapeutic protein production. We aim to describe a method qualification approach suitable for biopharmaceutical raw materials. Furthermore, we present detailed profiles of many common raw materials and discuss trends in raw material subtypes. Finally, a case study demonstrating the impact of an unexpected source of raw material variation is presented along with recommendations for raw material elemental risk profiling and control.

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Colorimetric and Physico-Chemical Property Relationships of Chemically Defined Media Powders Used in the Production of Biotherapeutics

Dickens

Chen

Bareford

et al. 2021

Journal of Pharmaceutical Sciences

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Development of a rapid and reliable analytical method for screening poloxamer 188 for use in cell culture process

Bareford

Peng

Ali

et al. 2019

Biotechnology Progress

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Poloxamer P188 is a common nonionic surfactant additive used in cell culture media as a cellular protectant from the hydrodynamic forces and shear stress during bioprocessing. Presence of a hydrophobic high molecular weight impurity contaminant has been shown to compromise its protective properties and lead to batch failure. In this work we present, a reliable, sensitive, and rapid analytical method to detect and quantify the contaminant impurity in poloxamer 188. This method replaces a laborious and time-consuming functional test in the form of a shake flask assay. The method is based upon reversed-phase liquid chromatography with charged aerosol detection, simple mobile phase compositions, and a three-step gradient. The method was optimized to resolve the impurity from the main P188 fraction in less than 10 min. Analytical method qualification and functional test comparison demonstrate equivalent or better high throughput impurity screening performance. Attempts to identify the impurity and establish suitable method positive control standards are also discussed. K E Y W O R D S charged aerosol detector, impurity, mammalian cell culture, poloxamer 188, surfactant

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Author response for "Elemental Metal Variance in Cell Culture Raw Materials for Process Risk Profiling"

Grinnell¹,

Bareford²,

Matthews³

et al. 2020

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Lisa Bareford

Characterization of Polysorbate 80 by Liquid Chromatography-Mass Spectrometry to Understand Its Susceptibility to Degradation and Its Oxidative Degradation Pathway

Elemental metal variance in cell culture raw materials for process risk profiling

Colorimetric and Physico-Chemical Property Relationships of Chemically Defined Media Powders Used in the Production of Biotherapeutics

Development of a rapid and reliable analytical method for screening poloxamer 188 for use in cell culture process

Author response for "Elemental Metal Variance in Cell Culture Raw Materials for Process Risk Profiling"

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