Tag: <span>high-throughput</span>

Process characterization using qualified scale-down models (SDM) offers time and resource-saving advantages to companies developing biotherapeutics. Current approaches with glass benchtop bioreactors as SDMs have demonstrated the ability to predict process performance and product quality, but are throughput- limited by infrastructure that requires significant operational input, as well as large volumes of media and reagents. In this article, the Sartorius Stedim Biotech ambr®250 high-throughput, single-use mini bioreactor system will be discussed for its suitability as an SDM for process characterization.

Biologics Production

The manufacture of biological materials by fermentation is based intrinsically on established and well understood processes developed over a number of years. The fundamental basics of supplying a characterised cell line with sufficient nutrients over a period of time, with the intention of harvesting a selected protein for further processing, are similar throughout the industry. However, as a result of economic pressures and the need to control costs of an already expensive, high quality, and high compliance material, all manufacturing companies endeavour to maintain the highest level of productivity…

Biologics Production Manufacturing

There is an increasing emphasis in clinical and translational research on the discovery and development of biomarkers that are indicative of a disease state. While biomarkers are not exclusively proteins, the emergence of new mass spectrometry platforms combined with the human genome databases has rejuvenated the search for biomarker proteins, especially in readily available body fluids such as blood. There is currently a tremendous need for an improved ability to “mine” the full depth of the proteome in a high throughput manner. To advance clinical proteomics, methodologies are needed that can accommodate higher throughput while facilitating the ability to observe large numbers of protein events…

Biologics Production Research

Recombinant protein expression using the Baculovirus Expression Vector System (BEVS) is a powerful tool for the production of therapeutics, diagnostics, and reagents. To maximize efficiency of protein production, and thereby reduce costs, it is important to optimize the production parameters. A crucial step in optimization is determining the best multiplicity of infection (MOI) for the system in use. Factors that can affect the MOI include the recombinant baculovirus itself as well as cell line type and media composition. Typically the titer of a viral stock is determined in a standard manner, and then that titer is applied to each and every parameter tested; for instance, titering the virus on a Spodoptera cell line in a serum-containing media, and then using those data to determine the MOI used to infect Trichoplusia cells in a serum-free media formulation. The results may suggest that either the Trichoplusia cell line or the media formulation is inadequate for protein expression when, in fact, the MOI was incorrect for that particular combination…

Baculovirus Expression Technology Biologics Production

At the onset of modern-day biotechnology, products typically fell into two distinct categories, the traditional high volume, low value products (e.g. beer and industrial enzymes) that had come to characterize the biotechnology industry, and low volume, high cost products. Recombinant proteins, the result of technological advances in molecular biology, have come to typify these latter products. Recombinant protein therapeutics have been hugely successful, potentially outstripping production capacity and continue to drive much of the biotechnology. Meanwhile, many recombinant proteins, those characterized as research tools and reagents, are governed by a price-volume relationship typical of industrial enzymes. In a competitive environment, they are fast becoming commodities — price sensitive, packaged as kits, coupled to instrumentation, and relying on heavy marketing and brand recognition. Ominously, the advantage protein therapeutics have enjoyed with patent protection and regulatory constraints on production is being threatened as patents expire and competition from generics increases…

Biologics Production