Since its inception 35 years ago, the biennial meeting of the European Society for Animal Cell Technology (ESACT) has built on a tradition of combining basic science and applications into industrial biotechnology to become the international reference event in its subject matter. Every other year, this gathering of academics and industry professionals features a famously exciting social program and an extensive vendor/supplier exhibition specific to animal cell technology. ESACT meetings are much-anticipated international venues for information exchange, inspiration, networking, and…
Author Archives: Cheryl Scott
Amplifying the Possibilities
Polymerases are natural enzymes that are vital to nucleic acid synthesis: DNA polymerase for replication of deoxyribonucleic acid and RNA polymerase for replication of ribonucleic acid. Thus all living things make and use polymerases of their own. But in 1969, the University of Wisconsin’s Thomas D. Brock and Hudson Freeze identified a new species of extremophilic bacterium thriving at 160 °F (70 °C) in a hot spring in Yellowstone National Park. In time, heat-tolerant polymerase isolated from Thermus aquaticus (Taq)…
A Powerful Pairing
Biological product and process characterization are not new to this quality by design (QbD) and process analytical technology (PAT) era. In the 1990s we saw the FDA introduce the concept of well-characterized biologics: an acknowledgment that analytical technology had advanced to the point where the bioprocess did not necessarily (or not fully, anyway) define a biopharmaceutical product. That ultimately led to the regulation of some types of products within the United States moving from the purview of FDA’s Center for…
Antibodies, Bioassays, and Cells
It’s no surprise that immunochemistry forms a broad and solid basis of biopharmaceutical analytical laboratory work. Immunochemicals include antibiotics and antigens, nucleic acids and nucleotides, enzymes, lipids, antioxidants, probes and dyes, and proteins and peptides. Available from companies such as Advanced Immunochemical, Immundiagnostik, Lampire Biological Laboratories, and Rockland Antibodies and Assays, their many uses include antibody isotyping and fragmentation. Adjuvants, buffers, assay kits, target biomolecules, and phage-display systems support those applications. Because background and off-target effects complicate the study of…
Biophysical Analysis of Living Cells
Adecades-old technology is finally emerging from clinical laboratories and demonstrating its utility in drug discovery and development. Cell therapy researchers bring their laboratory experiences with them as their science is commercialized. And as biopharmaceutical production engineers incorporate quality by design (QbD) and process analytical technology (PAT) into their work, they find that a method for monitoring the state and distribution of living cells can help build valuable upstream process knowledge. In flow cytometry, cells are suspended in fluid to flow…
Toward Nonantibody Platforms
Monoclonal antibodies (MAbs) remain the largest segment of the biopharmaceutical market, but they are not the only recombinant proteins in development. Remember that the first biopharmaceutical approved for sale was recombinant insulin — a hormone — back in the 1980s. And proteins aren’t the only recombinant biologics. The sector has expanded since then to include gene therapies and viral vectors, vaccines, and even cells and tissues. Companies around the world are developing such products for cancer, neurological, infectious disease, metabolic,…
Regenerative Medicine
The year 2011 may be seen as one in which regenerative medicine entered its adolescence. Public attention — from investors to desperate patients — finally turned toward this nascent industry with something other than skepticism or unrealistic expectations. The FDA’s approval of Dendreon’s Provenge cellular immunotherapy switched on the spotlight, and cell therapy companies suddenly faced a barrage of questions about cost, manufacturing issues, product development, and patient access. US Policy: In May 2011, US representatives Brian Bilbray…
Product Life-Cycle Planning
Quality by design (QbD) has changed the biopharmaceutical industry’s approach to chemistry, manufacturing, and controls at its core. And that’s changing how companies plan for and execute the life cycle of their products. New candidates entering development especially benefit from strategies implemented from the start. The 2012 BioProcess International Conference and Exhibition devotes a track on Tuesday and Wednesday (9–10 October 2012) to examining those strategies in the dawning age of biosimilars: from regulatory approaches and analytical innovation…
Recovery and Purification
Modern separation and purification engineers are hard tasked with handling concentrated feed streams, recalcitrant proteins, and new contaminant profiles coming from the use of serum-free culture media. With regulatory, public, and industry attention increasingly focused on the subject of viral safety, for example, a risk-based approach following an FDA quality systems initiative continues to build momentum. That regulatory perspective affects how recovery and purification unit operations are designed and conducted. Process modeling software is becoming increasingly sophisticated, so…
Formulation and Delivery
Biopharmaceutical formulation and delivery are more than science; they also must take into account patient preferences and behavior, the biology of diseases being treated, and even the concerns of legal, sales, and marketing groups. But science is the foundation. Formulation work has become more methodical and quantifiable thanks to advancing analytical technologies — which brings quality by design (QbD) into formulation laboratories. The vast majority of biotherapeutics and vaccines are parenteral drugs — many of them lyophilized and…