Scale-up studies are needed for assessing cell culture production system options and for testing nutrient supplementation techniques as well. With the many supplementation options available, choices need to be made as early in product development as possible because advantages can change with scale. One published fed-batch scale-up study testing from 3 L up to 2,500 L highlights items to be considered in addition to the nutrient supplementation process such as the impact of pH and CO2 control (1).…
Analytical
Banking Parental Cells According to CGMP Guidelines
It is often difficult to accurately anticipate quality standards across today’s global regulatory environments. In recent years, quality expectations have increased as a result of public demand and government regulation while regulatory requirements are often written with limited specificity. Regulations pertaining to parental cell lines (cells engineered to become biotherapeutic production cell lines) is one such area where current regulations leave room for interpretation. Here we explore some important considerations for determining quality standards for parental cell lines. Cell Line…
Efficient Development of Stable High-Titer Cell Lines for Biopharmaceutical Manufacturing
Commercial manufacturing of therapeutic monoclonal antibodies (MAbs) commonly uses mammalian cells to generate large quantities of a drug. Identifying cell lines that stably produce high protein titers is, therefore, a critical part of biopharmaceutical development. Unfortunately, identifying suitable cell lines is traditionally a time-consuming, labor-intensive process. That’s because their productivity and stability can vary enormously, so large numbers of clones must be screened to find those with both the highest yield and a desired level of product quality (1). Cell-line…
Using In Vitro Assays for Therapeutic Enzyme Characterization
A number of biopharmaceuticals are enzymes that act in vivo on high-molecular substrates. It can be a challenge to develop in vitro methods for accurately assessing their biological activity. Interest is also developing in using enzyme kinetic parameters as product quality attributes under the quality-by-design (QbD) initiative. Among biotechnology therapeutics, the conventional method of expressing potency is in units/mg of biopolymer. For enzymes, a unit of activity was defined in 1958 by the International Union of Biochemistry and Molecular Biology…
Nutrient Supplementation Strategies for Biopharmaceutical Production, Part 2
Some of the numerous feeding strategies are more appropriate than others for certain types of cell culture production systems. Once a nutrient supplement has been identified as described in Part 1 of this three-part review (1), a supplementation strategy must be chosen. Supplementing at too great a rate may expose log-phase cells to stresses such as increased osmolality and lactate levels that would inhibit biomass expansion. But inadequate supplementation can lead to early apoptosis through rapid depletion of selected important…
A Formulation Strategy for Quickly Reaching Clinical Trials
The aim of any company making protein-based therapeutics is to get to the clinic quickly with a product formulation that has the best chance of success. Any number of specific formulation development and manufacturing issues can keep such drugs from advancing expeditiously to the clinic. To be successful organizations must balance the strengths and weaknesses of each individual molecule against timelines, budgets, and priorities. Ultimately, it’s not just about deploying the best methodologies and processes, but of applying them appropriately…
A Modular Approach to Facility Validation
Biopharmaceutical manufacturers are striving to maintain productivity and profits while controlling increasing costs. Historically, validation has been seen as an expensive, non–value-added necessity to gaining regulatory approval to manufacture. Less often is it seen as a key element of an overall quality management system (QMS) that supports the safety, quality, and efficacy of end products for patients while also providing invaluable knowledge and experience for enhanced process control and management. When fully integrated with a QMS, a modular validation platform…
Large-Scale Freezing of Biologics
Production of biologics is expensive. To optimize capacity use, bulk protein solution produced in manufacturing campaigns is often converted into drug product based on market demand, so it may be stored for relatively long periods. To decouple production of bulk solution from that of a final drug product, the bulk is often stored frozen. Transport of frozen bulk between sites offers several practical advantages over bulk transport in the liquid state (2–8 °C). Maintaining 2–8 °C requires accurate systems control…
Nutrient Supplementation Strategies for Biopharmaceutical Production
Cell-culture–related in vitro recombinant protein production is currently a $70-billion/year business. In 2007, biotech drug sales grew by 12.5%, twice as fast as standard pharmaceuticals (1). Current ongoing efforts to maximize productivity in both time and volume directly affect the scale and capital investment required for a bioreactor suite. As cells reach higher concentrations more quickly while each cell pumps out more product than ever before, the number and scale of bioreactors can be reduced. To that end, not only…
Rapid Assessment of Vaccine Potency
The global vaccine market is growing annually by 16% and is expected to reach $21 billion by 2010 (1). Much of the predicted growth of this market is expected to come from the introduction of new vaccines, either against diseases for which no vaccine currently exists or as second-generation products to replace existing ones. Much research is still centered on developing vaccines to prevent infectious diseases caused by microbial and viral pathogens. This segment is being fueled by a number…