Tag: <span>encapsulation</span>

The first use of mammalian cell culture for the production of vaccines dates back to polio vaccine development in the 1950s. The development of hybridoma technology in the 1970s further stimulated the use of mammalian cells for the production of monoclonal antibodies. Together with developments in genetic engineering, it therefore became possible to produce a wide range of recombinant proteins as well as to improve cell metabolism. Animal cells are now widely used in industrial processes to obtain complex glycoproteins with correct posttranslational modifications and biological activity for diagnostic and therapeutic applications. Animal cells are the main source for commercially available recombinant proteins such as tissue plasminogen activator (tPa), erythropoietin (EPO), DNAse, factor VIII, interferon-ß, and monoclonal antibodies…

Biologics Production

The Gel Microdrop (GMD) Secretion Assay involves encapsulating cells within a biotinylated agarose matrix, followed by capture and detection of cell-secreted molecules with fluorescent markers. This technology differs from other encapsulation methods in that the small size of the microdrop (<50 ?m diameter) creates a defined microenvironment around the cell without impeding the fusion of nutrients, antibodies, or nucleic acid probes into the GMDs, or the diffusion of secreted products out of the GMDs. Large numbers of GMDs can be readily analyzed using flow cytometry, and sub-populations of rare or high-secreting cells, as small as 0.1%, can be detected and recovered in one day. This assay format is a rapid alternative to limited dilution cloning (LDC)...

Biologics Production