The US FDA’s quality by design (QbD) initiative and associated ICH Q8, Q9, and Q10 guidance documents are increasingly embraced by the biopharmaceutical manufacturing industry for ensuring consistent product quality and lower costs of development and manufacturing. One critical problem the industry faces involves understanding how to implement QbD and determine the benefit of such projects — which require the work of many groups across quality, manufacturing sciences, and engineering departments. Here we present the results from a survey of…
Analytical
Production of CGMP-Grade Lentiviral Vectors
Lentiviral vectors are important tools for gene transfer because of their ability to transduce a number of cell types without the need for host cells to be dividing (1, 2). As a result, investigators are using them as gene delivery vehicles in clinical applications (3,4,5,6). Although these vectors are used routinely in many research laboratories, large-scale production using current good manufacturing practice (CGMP) methods comes with a set of challenges that must be considered as more clinical trials using lentiviral…
Host Cellular Protein Quantification
Host-cell proteins (HCPs) are bioprocess-related impurities that may be present in intermediate or final biopharmaceutical products such as recombinant monoclonal antibodies (MAbs). Although the potential clinical and genetic effects of HCPs are largely unknown, studies have shown that HCPs may cause immune responses and adverse reactions in patients when present at sufficient high levels (1,2,3). Consequently, US Food and Drug Administration (FDA) and European Commission regulations require that the level of HCP in a bioproduct be quantitatively measured during manufacturing…
Development of a Plant-Made Pharmaceutical Production Platform
Since the late 1980s, studies have shown that plants can manufacture functional transgenic pharmaceutical compounds. Advantages attributed to plant-made pharmaceutical (PMP) approaches are compelling, and PMP production continues to attract interest from investors and the biopharmaceutical industry (Table 1). Proposed PMP benefits include proven scalability, high production capacity, limited exposure to human or animal pathogens, lower capital expenditures (CapEx), and decreased operating costs. Those putative advantages have proven to be significant business forces driving continued investor support for PMP ventures.…
Noninvasive Optical Sensor Technology in Shake Flasks
In process development, appropriate scaling is important to achieve acceptable product quality without compromising titer (1). Scale-down approaches involve matching the oxygen transfer coefficient (kLa) value, impeller tip speed, power per unit volume, or mixing time to those of a bioreactor (2). Bench-top bioreactors are typically used in bioprocess engineering as scale-down models of commercial units in fermentation and cell culture because of their similarity in geometry (H/D ratio) and mechanical properties (agitation type and sparging). By contrast, shaking culture…
Metabolic Process Engineering
Metabolic process engineering (MPE) was developed at Bristol-Myers Squibb Company as a tool to effectively control and optimize industrial cell culture processes used for production of biological drugs. A fundamental need was identified to introduce manipulations to the metabolism of production cell lines without genetic engineering. Optimization goals for production cell line performance include, for example, volumetric productivity, control of product quality attributes and by-product formation, and improved process scalability. With MPE, we could achieve targeted changes to cellular metabolism…
Recommendations for Cell Banks Used in GXP Assays
Cells and cell-derived reagents form the basis of an operationally challenging class of test methods used in execution of product potency testing (stability and lot release), assessments of pharmacokinetic/ pharmacodynamic (PK/PD) profiles, detection of antidrug antibodies (ADAs) or neutralizing antibodies (NAB), and characterization and comparability testing of biopharmaceutical products. Frequently, cell-based assays provide the only measurement of the tertiary/quaternary structure of each batch of product at the time of lot release and during stability testing to assist in determining product…
Rapid Production of Functional Proteins of a Combinatorial IgG Library in CHO Cells
Recombinant DNA (rDNA) technologies provide a wide range of tools for producing a broad array of recombinant proteins. Since the early 1970s, the biotechnology industry has harnessed those tools — together with genetic engineering and genomics — for developing new classes of innovative and effective therapeutic molecules. The therapeutic recombinant protein market segment now represents the core of the medical biotechnology industry, with hundreds of companies involved in discovery, development, and marketing. Although recombinant technologies are extremely powerful tools, significant…
Differential Cell Culture Media for Single-Cell Cloning
Recombinant therapeutic protein production using cell culture systems is a US$70 billion market. Most biotherapeutic proteins, including monoclonal antibodies (MAbs), are produced in Chinese hamster ovary (CHO) cells, which can generate the posttranslational modifications required for full biological function. Single-cell cloning is an important step in generating homogenous recombinant protein-producing mammalian cell lines. Recent advances in media development technologies have enabled limiting dilution cloning (LDC) and protein production in a serum-free environment to meet regulatory requirements. LDC…
Shifting the Bioprocess Paradigm
The need for transformation is a powerful driving force in the biopharmaceutical industry. Opinions and predictions about the best way forward are plentiful. As drug developers seek to enhance productivity, reduce costs, and improve their return on investment in research and development, new ways of doing business are explored, evaluated, and acted upon — with varying degrees of success. Faced with intense pressure to evolve, the biopharmaceutical industry is smart to leverage approaches that have driven success in…