On 31 March 2011, ~50 delegates attended a workshop organized by STEMCELL Technologies on implications of standard defined culture conditions for embryonic and induced-pluripotent human stem cells as part of the annual meeting of the UK National Stem Cell Network in York, UK. Researchers from both academia and industry need to develop a better understanding of those implications. Our company wanted to give them a better appreciation of key challenges facing ancillary material suppliers who manufacture standard defined…
Analytical
Evaluating Disposable Depth Filtration Platforms for MAb Harvest Clarification
At small to medium scales, single-use technology offers significant advantages over traditional reusable (e.g., stainless steel) manufacturing technology with regard to flexibility, cost of goods, implementation timelines, and maintenance. However, process design based on disposables does create new challenges. With traditional fed-batch processes, harvest clarification is usually achieved by centrifugation followed by depth filtration. For processes based entirely on disposables, the disc-stack centrifuge needs to be replaced by filtration alone. To extend its manufacturing capabilities and capacities, Rentschler decided to…
Scaling Up Normal-Flow Microfiltration Processes
Scaling up biological processes from laboratory bench to process scale is complex and requires considering a number of factors to ensure process robustness. Due to variability among raw materials and processes, most process developers use generous safety factors to ensure that their systems are not undersized. Although that method can be reduce process risk, it is inefficient. To improve process efficiency and reduce risk, we conducted a study to identify and quantify key factors that contribute to variability…
Optimization, Robustness, and Scale-Up of MAb Purification
The biopharmaceutical industry needs faster and more efficient development of new drugs and their market introduction as well as shorter process development times for both upstream and downstream operations. It has become more commonplace to use high-throughput development techniques to save time (1). Development is also sped up by applying platform technologies based on the unsurpassed selectivity of protein A resins (2,3,4,5,6), which is the foundation for downstream processing of monoclonal antibodies (MAbs). This is the second of two articles…
Use of Blast Freezers in Vaccine Manufacture
Vaccines are powerful and cost effective prophylactic tools for protecting public health. The Global Alliance for Vaccines and Immunizations (GAVI) estimates that ~5.4 million lives are saved each year by the administration of vaccines for hepatitis B, measles, haemophilus influenza type B (hib), pertussis (whooping cough), yellow fever, and polio (1). According to the World Health Organization, seasonal influenza alone claims 250,000–500,000 lives every year globally, many of which could be prevented by more widespread vaccination with the…
A Brief History of Perfusion Biomanufacturing
Today’s renewed interest in perfusion culture is due to an increased awareness of its advantages, some general improvement in equipment reliability, and a broadening of operational skills in the biomanufacturing industry. Some misperceptions persist, however, according to a 2011 review by Eric Langer (1). Our view here of the history of perfusion and fed-batch processes includes some discussion of technological process improvements and challenges that the bioprocess industry faces. A team of authors at Serono in Switzerland wrote…
Localized Surface Plasmon Resonance for Bioprocess Development, Monitoring, and Validation
Academic laboratories have embraced localized surface plasmon resonance (LSPR) as the “new wave†of label-free technology (1). This technique is based on the ability of colloidal metal nanoparticles or nanostructured metallic films to absorb light in a narrow wavelength range. Metal nanostructures “sense†changes occurring at their surfaces by shifting the frequency of the light they absorb or reflect. As a consequence, a basic LSPR system requires only optical fibers, a source of white light, and a detector…
Considerations in Scale-Up of Viral Vaccine Production
On 28 June 2011, the Food and Agriculture Organization of the United Nations declared the Rinderpest cattle plague virus to be the second troublesome virus (after smallpox) that humans have eradicated from the Earth (1). Such achievements herald exciting times both for classical vaccinology and for many new and developing technologies. Here we consider scaling up of vaccines and related hybrid, targeted, and conjugated viral therapeutics that are made through animal cell culture. The vaccine industry is now…
Implementation of the ASTM Standard for Manufacturing Systems Verification
In 2007, ASTM International (ASTM), formerly known as the American Society for Testing and Materials, published its “E2500-07” international industry consensus standard for conducting a risk-based design and qualification of good manufacturing practice (GMP) manufacturing systems (1). This guide incorporates risk- and science-based practices to focus on critical aspects affecting equipment systems throughout their design–qualification–operation lifecycle. Presentations at recent PDA and ISPE annual meetings indicate that the bioprocess industry is embracing E2500 to improve system designs and reduce costly validations.…
Key Aspects of Enzyme Activity and Steady-State Kinetics
Living systems rely on enzymes to perform many essential functions for survival. One prime example is digestion, the conversion of food into energy. Each enzyme possesses specific requirements for the types of molecules that it can use as substrates or reactants to convert to products. Here, I provide some basic information about enzymes, explain their biochemical parameters (e.g., kinetic parameters) and significance for characterization, and review related assays currently available to the bioprocess industry. Lactose intolerance is a common enzyme…