When you hear the phrase “laboratory analysis” on a TV commercial, maybe you imagine a technician in a white coat and safety goggles pouring a chemical from one test tube to another. Technicians still wear white coats and goggles, but today, in many labs, they’re not the ones pouring the chemicals. Instead, tiny trays carrying minuscule dabs of samples are whisked by robots from one analytical workstation to another. The workstations are equipped with ultraprecise instrument systems to prepare the…
Analytical
Current Status of Protein Quantification Technologies
With the help of rapid advancements in molecular biology and genetic engineering, a rising number of biotherapeutics are being developed and marketed. The quality and safety requirements for this class of active ingredients has steadily increased over the decades since Eli Lilly put forth the first insulin manufactured using genetically modified organisms in 1982. This has led to dynamic developments in protein analysis and proteomics intended to meet a growing demand for new technologies and sophisticated analytical techniques to characterize…
Moving On in Cell Culture
Record-breaking titer outputs in mammalian cell culture systems in the past few years have pushed the industry to a new crisis of sorts: resolving the downstream bottleneck. However, the cell culture and fermentation groups at biopharmaceutical companies aren’t yet ready to sit back and rest on their laurels. Instead, they are moving forward, tackling the downstream issue with upstream modifications and continuing their drive for more cost-efficient processing. The Cell Culture and Upstream Processing track will focus on cell culture…
Cutting Down Process Time and Costs
Because the biopharmaceutical industry operates as an industry rather than a nonprofit, the bottom line is an important consideration in every aspect of product design. From laboratory automation methods that speed discovery to streamlined manufacturing processes that incorporate the themes of operational excellence, Lean manufacturing, and quality by design, the industry is undeniably focused on minimizing cost and maximizing revenue. At the BioProcess International European Conference and Exhibition, the Scale-Up and Manufacturing track will focus on economic strategy and technology…
PAT Tools for Accelerated Process Development and Improvement
Broadley-James Corporation, Emerson Process Management, and the University of Texas at Austin are working together to examine and quantify the potential for faster optimization of batch operating points, process design, and cycle times. We’re also looking for more reproducible and predictable batch endpoints. The objective of this effort is to show that the impact of PAT can be maximized through the integration of dynamic simulation and multivariate analytics in a laboratory-optimized control system during product development. Data from bench-top and…
A New Era for Bioprocess Design and Control, Part 2
The level or intensity of product and process understanding that can or should be achieved beyond the acceptable minimum level promises to be the scope of a continuing debate among biotech industry and its regulators. In practice, the path of increased understanding may follow a series of incremental steps toward the desired state (Figure 1) after a product launch. Realistically that is expected to occur when the level of product and process understanding has reached or slightly exceeded the minimum…
A New Era for Bioprocess Design and Control, Part 1
Elements of the biopharmaceutical industry’s new operating paradigm have inevitably created an immediate need to condense, interpret, and relate their implications to existing regulatory and industry practices. This also provides us with an opportunity to look at them in a broader context and in relationship to one another. Such a perspective may open up new directions in discussion on how design and control aspects of biopharmaceutical manufacturing are likely to evolve. These are exciting times for scientists, engineers, statisticians, quality…
The Biopharmaceutical Industry’s New Operating Paradigm
Currently the biopharmaceutical industry is transitioning to a new business model of production efficiency through implementing operational excellence (Op Ex). Borrowing from such principles as “lean manufacturing” and “Six Sigma” (6σ), and incorporating quality by design (QbD) (1), Op Ex is being applied through the implementation of such advanced enabling concepts and technologies as quality risk management (QRM) (2), process analytical technology (PAT) (3), and systems biology (SB) (4). Some people see a conflict here: This paradigm shift is occurring…
Carbohydrates and Their Analysis, Part Two
A polysaccharide is a complex glycan with at least 10 monosaccharide units. It can be formed by the multiples of the same monosaccharide (a homopolysaccharide) or by two or more monosaccharides combined (heteropolysaccharide). Two homopolysaccharides can have completely different conformations — and thus properties — based on the position and type of glycosidic linkages in the structure (Figure 9). Polyglucose ranges from cellulose — β(1,2,3,4) glucan, with its zig-zag chains regularly superimposed to each other and bound tightly by hundreds…
Bioassay Survey 2006–2007
Bioassays are required for a variety of purposes in the development and production of biopharmaceuticals including drug candidate selection, product releases, product stability assessment, and comparability to support proposed process changes. However, because of their complexity and susceptibility to many variables, bioassays often prove problematic and difficult to develop. Timely development of suitable assay systems represents a major investment on the part of the biopharmaceutical industry — but late development often results in even more costly clinical holds. PRODUCT FOCUS:…