- EMD Millipore Launches Eshmuno CPX, a Strong Cation Exchanger Optimized for High Resolution and High Productivity
Product News: EMD Millipore Launches Eshmuno CPX, a Strong Cation Exchanger Optimized for High Resolution and High ProductivityEMD Millipore, the life science division of Merck KGaA of Darmstadt, Germany, has announced the launch of Eshmuno® CPX media, a strong cation exchanger optimized for intermediate or polishing purification of monoclonal antibodies. Built on EMD Millipore's proven Eshmuno® resin technology, the new media offers high aggregate removal efficiency and high dynamic binding capacity, supporting highly productive downstream bioprocessing.
The primary challenge for intermediate purification and polishing is the selectivity to remove impurities similar to the target molecule such as aggregates and host cell proteins, even at high loading levels. Eshmuno® CPX media offers these features for different types of biomolecules.
Eshmuno® CPX media was specifically built on EMD Millipore's proven tentacle technology allowing for a multipoint interaction. This technology in combination with the hydrophilic polyvinylether base bead allows the binding of the target molecule and impurity removal over a wide range of process conditions.
Eshmuno® CPX media is compatible over a wide range of pH conditions, providing excellent process stability against alkaline and acids. It is available in pre-packed, ready-to-use, disposable columns, the ideal tool for performing initial media screening, scaling and optimization studies. The columns can be used with any chromatography system.
"High titers in upstream processing create a bottleneck in downstream processing, slowing down the production process," said Jonas Anders, Global Marketing Director, Purification Chromatography. "As a result, there is a need for highly productive and reliable purification technologies. Eshmuno® CPX media is the first member of an expanded, novel high-resolution platform designed to meet the needs for highly productive downstream bioprocessing applications."