Lively debate in 2012 concerned the risks and benefits of laboratory studies that created a contagious H5N1 avian pandemic influenza (flu) laboratory-strain virus. One benefit of the public debate is that it reminded governments of the increasingly likely and disastrous possibility of a devastating flu pandemic on the scale of the Spanish influenza outbreak of 1918. Natural evolution of circulating H5N1 viruses could lead to emergence of a deadly and contagious strain (1). Here we outline conventional flu vaccine options…
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Cellular Communications
Like spectroscopy, as discussed in BPI Lab last month (1), cell signaling is not a laboratory technique but rather an area of scientific study. The environment of living cells — whether prokaryotic or eukaryotic, in vitro or in vivo — comprises not only water, nutrients, waste products, and metabolites, but also molecules released by other cells in response to intracellular events such as microbial infection and disease state or environmental factors such as temperature, osmolality, and pH. Receptor proteins on…
Emerging Challenges to Protein A
Protein A affinity chromatography has been a target for replacement since its commercial debut, mainly because of its high acquisition cost. The technique became established despite the cost because it was born into an industrial culture that favored speed to market over manufacturing economy (1). Vendors have since strengthened protein A’s position with incremental but worthy improvements such as higher capacity, lower ligand leaching, and modest tolerance of NaOH. Collateral improvements in polishing technologies, such as the high throughput and…
Spray-Dry Manufacture of Vaccine Formulations
Development of vaccines and immunotherapeutics has expanded rapidly due to technological advances in the fields of molecular biology and bioprocess engineering, as well as a smoothing of management and material logistics worldwide. Expression platforms and novel cell lines have enabled creation of increasingly complex vaccines. The advancement of vaccine formulation development is also capitalizing on new advances in manufacturing that use model-based methodologies gleaned from physiochemical principles, process analytical tools, and systematic approaches to problem solving. Herein we highlight recent…
An Industry–Academia Partnership
GE Healthcare Life Sciences recently launched a joint program with Osaka University to support future growth of the biopharmaceutical sector in Japan. Together, they offer students access to GE Healthcare’s expertise in training and technologies for bioprocess research and manufacturing. The program is funded by Osaka University as part of its “Interdisciplinary Program for Biomedical Sciences” (IPBS), a government-funded commitment to graduate education. The goal of IPBS is to educate young scientists to undertake global-scale collaborations to develop effective treatments…
Protein A
The number of blockbuster monoclonal antibody (MAb) drugs continues to grow. In 2008, MAbs generated revenues in excess of US$15 billion (1), making them the highest-earning category of all biotherapeutics. The world MAb market will reach $62.3 billion in 2015, with next-generation therapeutic antibody revenues reaching $2.3 billion in 2015 according to Visiongain reports published in September and November 2011 (2, 3). Biosimilar antibodies will also begin to enter established markets as regulatory authorities clear approval pathways for them. Most…
Moving Forward with a Gene Therapy for Damaged Hearts
A cocktail of three specific genes can reprogram cells in the scars caused by heart attacks into functioning muscle cells. Adding a gene that stimulates the growth of blood vessels enhances that effect, say researchers from Weill Cornell Medical College, Baylor College of Medicine, and Stony Brook University Medical Center in a report that appears online in the Journal of the American Heart Association (1). “The idea of reprogramming scar tissue in the heart into functioning heart muscle was exciting,”…
Keeping New Technologies Coming
The biomanufacturing industry is heavily invested in improvements in productivity and efficiency, and innovation is a critical component to ensuring gains in these areas. Yet that is not always the case. Suppliers and innovators in this market face greater challenges, and much longer product evaluation cycles than in other segments, for example the information technology or semiconductor industries. In the highly regulated biomanufacturing environment, changing any aspect of a process can potentially necessitate additional regulatory submissions to the US Food…
Profitability in the Biosimilars Market
The biosimilars space offers significant commercial opportunity. About US$60 billion of branded biologic sales will lose patent protection over the next few years, including some of the largest-selling monoclonal antibodies (MAbs). Companies are jostling among themselves, each seeking the best position to exploit that opportunity. Regulators are creating and refining the necessary pathways to success, alliances are being forged, and companies are being acquired. Despite the significant opportunity for biosimilar MAbs, significant risks remain. Perhaps the most significant of those…
An Analysis of the US Biosimilars Development Pipeline and Likely Market Evolution
No consensus concerning biosimilar-related terminology and definitions has yet been achieved (1,2,3). Biosimilars may be defined as biopharmaceuticals slated for generic-drug–like, abbreviated, comparisons-based approvals through a formal biosimilar approval pathway in the United States, European Union, and/or other highly regulated and developed countries based on a demonstration of substantial (bio)similarity to a reference product. As required in the United States, biosimilar active agents (those involving recombinant proteins) must be identical in primary sequence with their reference products. Analytical and comparative…