Chromatography media and methods have evolved continuously since their introduction a half century ago. Traditional methods use columns packed with porous particles. They still dominate chromatography applications in the field of virus purification, but the past 20 years have witnessed the ascendance of alternative supports, namely membranes and monoliths. These newer media exploit the familiar surface chemistries — ion exchange, hydrophobic interaction, and affinity — but they use unique architectures that offer compelling performance features. The Architecture of Chromatography Media…
Manufacturing
Cellular Therapy Success Through Integrated Automation
Cell therapies are being developed for a rapidly expanding range of indications. Genzyme Corporation has a treatment of cartilage in joints in long-term follow-up stage (Genzyme Corporation, www.genzyme.com). Cell Therapies are being investigated successfully in applications to treat infectious diseases such as AIDS, repair spinal cord injuries, strengthen immune systems, and treat neurological disorders such as Alzheimer’s disease, Parkinson’s disease, and epilepsy. Positive results have been reported in treating arteriosclerosis and other cardiovascular diseases, congenital defects, breast reconstruction, and liver…
The Genesis of New Production Tools for Biotechnology Manufacturers
The biotechnology industry has from the start been characterized by its dependence on innovation. New therapeutics, new indications, new technologies — and the continual drive toward new approaches for optimizing processes — all contribute to getting novel products to the market (and to patients) efficiently and cost-effectively. Most of the technical literature reports on development processes for the therapeutic products themselves. But one element largely ignored forms an essential foundation to the work of the biotechnology industry: How are products…
Modeling Flow Distribution in Large-Scale Chromatographic Columns with Computational Fluid Dynamics
Column chromatography remains a key unit operation in downstream processing of biopharmaceuticals. For most commercial processes, two to three chromatography steps are used to remove process-and product-related proteins, DNA and adventitious agents. As the biopharmaceutical industry has increased its product offerings and related demands, downstream processes have fast become a bottleneck (1, 2). Many commercial and clinical processes include a number of cycles on one or more chromatography steps to process the harvest from a single production batch. PRODUCT FOCUS:…
Data Management in the Supply Chain
Adopting an effective strategy for data and knowledge management throughout the drug development and clinical manufacturing lifecycle is key to maintaining a competitive edge. Significant challenges face each organization seeking to improve efficiency in this area, and they can mostly be attributed to the complex nature of pharmaceutical drug development. Managing both data and knowledge is complicated by the different groups, sites, and partner organizations involved with developing and manufacturing a new drug product. To further compound the problem, a…
Biomanufacturing Capacity Use Showed Solid Performance in 2007
It appears that it will take more than just the subprime mortgage crisis to put a dent in biopharmaceutical manufacturing. Based on results of our latest annual report, capacity use in 2007 remained essentially steady for mammalian cell culture: at nearly two-thirds, 63.3% compared with 63.9% the year before (1). Capacity use represents the percentage of an industry’s production capacity that is actually in use. It measures how effectively manufacturers and industries are making use of their fixed assets. This…
Manufacturing Patient-Specific Cell Therapy Products
Several cellular therapies are currently progressing through clinical development with the potential to address unmet medical needs affecting millions of patients. As cell-based therapeutics receive regulatory approval and reach the market, the primary challenge will quickly become manufacturing such products in sufficient volume to meet demand. Aastrom Biosciences has developed tissue-repair cell (TRC) technology for use in autologous, patient-specific cellular therapy (PSCT) and is conducting late-stage clinical trials both in the United States and Europe. TRCs are derived from a…
Probing Thermal Stability of MAbs By Intrinsic Tryptophan Fluorescence
In the arsenal of biophysical techniques available for rapidly monitoring the stability of protein formulations, spectroscopic techniques have some convincing advantages over others (1, 2). The main advantages to using methods such as circular dichroism (CD), infrared spectroscopy (IR) and fluorescence spectroscopy are their extremely high sensitivity (favorable signal-to-noise ratios), freedom from sample interactions with column resins or extrinsic probes (noninvasive techniques), and coverage of an extremely broad protein concentration range — from pM to mM (3, 4). To reduce…
Validation of Adventitious Virus Removal By Virus Filtration
Regulatory bodies around the world expect downstream purification processes to demonstrate robust clearance of model adventitious viruses in time for execution of phase 3 clinical trials and product licensure (1,2,3). Model viruses selected for these studies should represent a diversity of viral physicochemical properties, and the clearance methods applied should include orthogonal mechanisms such as clearance based on size alongside chemical inactivation. Virus filtration is a critical unit operation used in numerous purification processes of monoclonal antibodies (MAbs), recombinant proteins,…
Delivery Technology Reenergizes DNA Drug Development
In vivo delivery of DNA-based biopharmaceutical agents encoding proteins of interest (“DNA drugs”) offers a means for the production of protein by target regions of tissue in a subject. This product class derives activity from an ability to induce sustained endogenous protein expression from recipients’ own cells. These unique characteristics are favorable for multiple applications, several of which are now in clinical testing. Therapeutic Proteins: DNA drugs encoding autologous therapeutic proteins could serve as an alternative to long-term therapy based…