Abstract: The present invention relates to discontinuous fed batch cell culturing of mammalian cells (more specific CHO cells) with the use of alternating bioreactors in combination with discontinuous separation of biomass from biological substance (more specific monoclonal antibodies) and waste components.

Abstract: The present invention relates to discontinuous fed batch cell culturing of mammalian cells (more specific CHO cells) with the use of alternating bioreactors in combination with discontinuous separation of biomass from biological substance (more specific monoclonal antibodies) and waste components.

Abstract: A method and system is provided for yielding biopharmaceutical products involving a chromatographic separation process. The method comprises: providing a plurality of membrane adsorber cartridges; providing a plurality of valves, communicatively coupled to said plurality of membrane adsorber cartridges; and switching the valves, so as to interconnect said membrane adsorber cartridges to operate in a countercurrent flow mode. The system comprises multiple membrane adsorber cartridges that are interconnected and configured to operate in a countercurrent flow mode. Furthermore, the configuration comprises a valve assembly that allows the cartridges to be subjected to different steps in the process by automatic switching of the valves. In this way, cartridges are recycled many times during the purification of a batch.

Abstract: A device is provided for chromatographic separations comprising a manifold comprising a plurality of connectors for connecting to one or more chromatographic separation columns and/or feed or extraction tubing. At least one central duct is formed between at least two connectors forming an inlet and an outlet respectively. The central duct comprises a closable duct valve; and a plurality of branch ducts branching from the central duct to a branch connector. The branch duct comprises a closable branch valve, wherein at least one branch duct is positioned between the inlet and the central duct valve and wherein at least one branch duct is positioned between the outlet and the central duct valve. The device is arranged for carrying out single-column and (continuous) multicolumn chromatographic separations. This allows the purification of biopharmaceutical products without having to develop, demonstrate and validate cleaning procedures for the valves.

Abstract: A device is provided for chromatographic separations comprising a manifold comprising a plurality of connectors for connecting to one or more chromatographic separation columns and/or feed or extraction tubing. At least one central duct is formed between at least two connectors forming an inlet and an outlet respectively. The central duct comprises a closable duct valve; and a plurality of branch ducts branching from the central duct to a branch connector. The branch duct comprises a closable branch valve, wherein at least one branch duct is positioned between the inlet and the central duct valve and wherein at least one branch duct is positioned between the outlet and the central duct valve. The device is arranged for carrying out single-column and (continuous) multicolumn chromatographic separations. This allows the purification of biopharmaceutical products without having to develop, demonstrate and validate cleaning procedures for the valves.

Abstract: A device is provided for chromatographic separations comprising a manifold comprising a plurality of connectors for connecting to one or more chromatographic separation columns and/or feed or extraction tubing. At least one central duct is formed between at least two connectors forming an inlet and an outlet respectively. The central duct comprises a closable duct valve; and a plurality of branch ducts branching from the central duct to a branch connector. The branch duct comprises a closable branch valve, wherein at least one branch duct is positioned between the inlet and the central duct valve and wherein at least one branch duct is positioned between the outlet and the central duct valve. The device is arranged for carrying out single-column and (continuous) multicolumn chromatographic separations. This allows the purification of biopharmaceutical products without having to develop, demonstrate and validate cleaning procedures for the valves.

Abstract: A method and system is provided for yielding biopharmaceutical products involving a chromatographic separation process. The method comprises: providing a plurality of membrane adsorber cartridges; providing a plurality of valves, communicatively coupled to said plurality of membrane adsorber cartridges; and switching the valves, so as to interconnect said membrane adsorber cartridges to operate in a countercurrent flow mode. The system comprises multiple membrane adsorber cartridges that are interconnected and configured to operate in a countercurrent flow mode. Furthermore, the configuration comprises a valve assembly that allows the cartridges to be subjected to different steps in the process by automatic switching of the valves. In this way, cartridges are recycled many times during the purification of a batch.

Abstract: A device is provided for chromatographic separations comprising a manifold comprising a plurality of connectors for connecting to one or more chromatographic separation columns and/or feed or extraction tubing. At least one central duct is formed between at least two connectors forming an inlet and an outlet respectively. The central duct comprises a closable duct valve; and a plurality of branch ducts branching from the central duct to a branch connector. The branch duct comprises a closable branch valve, wherein at least one branch duct is positioned between the inlet and the central duct valve and wherein at least one branch duct is positioned between the outlet and the central duct valve. The device is arranged for carrying out single-column and (continuous) multicolumn chromatographic separations. This allows the purification of biopharmaceutical products without having to develop, demonstrate and validate cleaning procedures for the valves.