Downstream Processing

The Complete e-Book of Biosafety Testing

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Expect the expected. But plan for the unexpected. If your Biosafety Development takes a nose dive, Eurofins Lancaster Laboratories’ team of regulatory experts and experienced scientists will help you land safely on two feet. Download The Complete e-Book of Biosafety Testing to learn more about our expertise in biologics raw materials, cell bank preparation, adventitious virus testing, viral clearance studies, next-generation sequencing, genetic stability testing, and more. This e-Book contains the following chapters: Mitigating Risk and Reducing Regulatory Scrutiny of…

December 12, 2018

Manufactured by Jetting: The Future in Protein A Affinity Matrix Design

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Protein A affinity chromatography continues to be the preferred method for commercial purification of antibodies because of its high selectivity and robust resin performance over repeated purification cycles. Reports estimate that US$125 billion of yearly sales will be generated from monoclonal antibody (MAb) products by 2020 (1). Most of those will be purified by largescale protein A affinity chromatography. With the continued growth and commercial importance of MAb production, availability of high-quality resin material and options for secondary sourcing are…

December 11, 2018

Inactivation of Enveloped Viruses: Seeking Alternatives to a Problematic Surfactant

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Triton X-100 detergent makes an interesting case study in bioprocess sustainability strategy. Also known as octylphenol ethoxylate (OPE), this nonionic surfactant has many uses in biopharmaceutical research and development. Among other laboratory applications, it is used to lyse cells and DNA in research, to solubilize membrane proteins and decellularize animal-derived tissues, to reduce the surface tension of aqueous solutions during immunostaining, and to remove sodium dodecyl sulfate (SDS) from polyacrylamide gel electrophoresis (PAGE) gels for analysis. It also serves as…

November 9, 2018

Viral Risk Mitigation: A Global Regulatory Perspective

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The production of biologics will always have the risk of viral contamination. Manufacturers have developed a multitiered approach — tailored to individual processes — to prevent adventitious viruses from entering production processes, detect contamination in raw materials and process intermediates, and remove viruses in downstream purification. This article provides an overview of the global regulatory framework to ensure the viral safety of biologics. Past Contamination Events Past contamination events have resulted in corrective and preventative actions to reduce the risk…

October 30, 2018

Using Data and Advanced Analytics to Improve Chromatography and Batch Comparisons

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With all the hype surrounding the industrial Internet of Things (IoT), cloud computing, and digital transformations, the most important information technology factors still are data and the connections of sensors, systems, and applications that generate, store, find, and use those data to obtain operational intelligence. Data volumes are increasing rapidly, and they will continue to do so. The ability to find and make sense of data to obtain intelligence that improves process outcomes is more important than ever. For clinical-…

October 15, 2018

Intensification of Influenza Virus Purification: From Clarified Harvest to Formulated Product in a Single Shift

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Influenza is a global respiratory disease with an estimated mortality of up to a half million people per year (1). The majority of traditional influenza vaccines are still produced in eggs. Downstream processing typically consists of clarification by centrifugation, concentration by ultrafiltration, and purification by ultracentrifugation (2). Recombinant vaccines are most often purified by chromatography. Chromatographic purification of viruses already has achieved major improvements in recovery and scalability (3), but it also is important because it enables virus purification to…

October 15, 2018

Sticking In or Standing Out? Dichotomy in Vaccine Purification By Chromatography

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A general vaccine purification strategy can be divided into three stages, with one or more steps for each stage. The first stage is to concentrate and isolate the target molecule quickly to remove it from conditions that could lead to its inactivation or loss. Intermediate purification seeks to remove remaining contaminants, typically using an orthogonal approach. That is followed by a polishing step in which trace impurities are removed through high-efficiency steps because those impurities usually are similar to the…

October 15, 2018

Process Analytics and Intermediate Purification of Bispecific Antibodies with a Non-Affinity Platform

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The therapeutic benefits of monoclonal antibodies (MAbs) have been demonstrated in recent decades with uncontestable success as treatments for human disease. Despite MAbs’ key features such as specificity, selectivity, and safety, the format has limitations (1, 2). Bispecific antibodies may overcome number of difficulties (3). Multiple formats of bispecific antibodies have been developed, although only the κλ-body is fully human and devoid of linkers or mutations. It requires no genetic modifications of heavy and light chains and results in bispecific antibodies…

October 15, 2018

Virus Segregation During Purification Processes: Calculation of Critical Potential Carryover of Viruses

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Before a pharmaceutical product is introduced into humans, either in a clinical trial or as a marketed product, virus safety must be evaluated carefully. Virus safety normally is ensured using a three step complementary approach: selecting and testing cell lines and/or raw materials for the absence of viruses, testing the product at appropriate steps of production, and assessing the capacity of a production process to clear infectious viruses (1). The latter (also referred to as viral clearance) is the subject herein. Spiking studies are conducted to evaluate the capacity of a purification…

September 15, 2018

A UF–DF Screening System for Bioprocess Development: Efficient and Cost-Effective Process Fit and Scale-Up to Manufacturing

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Ultrafiltration and diafiltration (UF–DF) of therapeutic proteins are performed in either tangential or crossflow mode using membrane filters. UF–DF plays a critical role in both downstream and upstream processes for the biopharmaceutical industry (1). In upstream production processes, classical tangential-flow filtration (TFF) or alternating tangential-flow (ATF) systems are used in high–cell-density perfusion for protein expression by cell culture (2). TFF is used in downstream processing for UF–DF and concentration of therapeutic proteins. TFF unit operations are common in protein purification…

September 15, 2018