Tag: <span>antibody purification</span>

Cancer is one of the leading causes of death worldwide, and the second leading cause of death in Cuba. To address this serious health problem, some research has involved suppressing tumor growth by inhibiting the angiogenesis process using several molecules including antibodies. A divalent version of antibody fragments, the CIGB-598a, with a molecular weight between 100 and 110 kDa, has been expressed in CHO cells specific for a novel epitope of the human vascular endothelium growth factor (VEGF). This material has been generated at the Center for Genetic Engineering and Biotechnology to support cancer research efforts. As in other studies involving the purification of recombinant molecules, CIGB-598a exhibited a high degree of aggregation in the CHO cell culture supernatant. This required the design of a downstream process capable of removing high levels of aggregates to obtain a highly pure target molecule for use in preclinical studies and human applications further down the road. We have developed a suitable downstream method based on the combination of three chromatography processes: affinity, cation-exchange, and anion-exchange that recover a relatively low level of CIGB-598a, but at a level of high purity (greater than 95 %) with fewer aggregates (below 1%)…

Biologics Production

With the ­development of bacterial fermen­tation and ­mammalian cell culture as the sources for new recombinant products came a standardization of raw feed stocks. Therefore, manufacturers came to share the same types of problems. This standardization allowed a more systematic approach to process development divided into upstream (bacterial and yeast fermentation or mammalian cell culture) and downstream processing activities…

Manufacturing

Monoclonal antibodies and recombinant proteins have increased in importance and gained success as therapeutic agents in treating various diseases. Biomanufacturing of such a biopharmaceutical product by cell culture follows a main route. Upstream processing is strictly biology-driven, while on the other hand, purification is engineering driven. Fermentation is setting the pace. To some extent, that pace is a result of recent advances in cell culture, greatly increasing the densities of cells along with cell-related contaminants…

Manufacturing

In today’s biopharmaceutical pipeline, monoclonal antibodies are a predominant modality for a broad range of clinical indications, including inflammatory disorders, oncology, and infectious diseases. More than two dozen antibody-based products are commercially available. In 2004, six of the 12 new biopharmaceutics that gained approval in the United States and Europe were antibody-based products. Most antibody therapies require high doses over a long period of time, which requires large amounts of purified product per patient. Therefore, manufacturing capacity to meet the demands of antibody production is a real challenge. It is desirable to have highly productive and consistent manufacturing processes. In addition, speed to market is critical to deliver health benefits to patients quickly and to achieve business success…

Biologics Production Manufacturing

The diversity of the antibody-antigen interaction and our ability to manipulate this interaction has created an enormous potential for the discovery and development of IgG therapeutics and diagnostics. Along with the expanding clinical pipeline of antibody products, increasing efforts have been devoted to improving antibody production and purification procedures. In order to meet drug discovery needs with limited resources, the so called “flexible generic purification scheme” approach has been adopted to develop a robust manufacturing process that allows the application of similar operational conditions to different monoclonal antibody molecules…

Biologics Production