Abstract: A vessel having a mixer that ensures a homogeneous cell distribution in dispensed quantities. The vessel has a mixer therein for stirring contents of the vessel and an orifice in a lower wall to which a cell dispenser is attached. The cell dispenser dispenses quantities of suspended cells having a homogeneous cell distribution. The vessel may be a closed system with no option or instructions for removing a cap or other access port, whereby after manufacturing the vessel is shipped to a customer and the interior remains closed to the exterior environment and fluids are transferred through tubes.

Abstract: Methods of repeated aggregate dissociation and reformation of pluripotent stem cells (PSCs) within the same bioreactor until a desired final cell number is achieved. A preferred step-wise process for controlled growth of PSCs and aggregate size using periodic dissociation with a dissociation medium which contains either proteolytic enzymes or chemical reagents, mechanical agitation, or a combination of these methods.

Abstract: A vessel having a mixer that ensures a homogeneous cell distribution in dispensed quantities. The vessel has a mixer therein for stirring contents of the vessel and an orifice in a lower wall to which a cell dispenser is attached. The cell dispenser dispenses quantities of suspended cells having a homogeneous cell distribution.

Abstract: The bioreactor may include a single-use, rigid-sided bioreactor vessel containing a fluid to be mixed and a vertical mixing wheel. A perfusion dip tube with a screen filter incorporated on the end is secured to the vessel from the top lid and partially submerged in the fluid, preferably into close proximity with an outer circumference of the vertical mixing wheel. The screen filter of appropriate mesh size allows spent cell culture medium to be withdrawn from the bioreactor vessel while retaining cell aggregates or microcarriers on which cells are attached and growing in the vessel. Alternating flow of fluid out from and into the dip tube enables removal of spent medium and unclogging of the dip tube filter.

Abstract: A system and method for compartmentalizing micro-carriers in a bioreactor includes a container configured to store micro-carriers and a vessel configured to contain a fluid so as to prevent the micro-carriers from entering the vessel during sterilization, shipping, storage, or other pre-use handling of the system. One or more addition lines connect the container and the vessel such that the vessel is in fluid communication with the vessel. The one or more addition lines are contactable by at least one blocking element configured to reversibly block fluid flow between the container and the vessel. The container, addition lines, and vessel are configured to allow the micro-carriers to be injected into the vessel at any point during a cell culture run. The vessel may also include a rotatable wheel, a harvest port configured to allow for the removal of the micro-carriers from the vessel, and a media removal port comprising a retention screen for removing spent medium.

Abstract: A system and method for compartmentalizing micro-carriers in a bioreactor includes a container configured to store micro-carriers and a vessel configured to contain a fluid so as to prevent the micro-carriers from entering the vessel during sterilization, shipping, storage, or other pre-use handling of the system. One or more addition lines connect the container and the vessel such that the vessel is in fluid communication with the vessel. The one or more addition lines are contactable by at least one blocking element configured to reversibly block fluid flow between the container and the vessel. The container, addition lines, and vessel are configured to allow the micro-carriers to be injected into the vessel at any point during a cell culture run. The vessel may also include a rotatable wheel, a harvest port configured to allow for the removal of the micro-carriers from the vessel, and a media removal port comprising a retention screen for removing spent medium.

Abstract: A vessel having a mixer that ensures a homogeneous cell distribution in dispensed quantities. The vessel has a mixer therein for stirring contents of the vessel and an orifice in a lower wall to which a cell dispenser is attached. The cell dispenser dispenses quantities of suspended cells having a homogeneous cell distribution.

Abstract: A system and method for compartmentalizing micro-carriers in a bioreactor includes a container configured to store micro-carriers and a vessel configured to contain a fluid so as to prevent the micro-carriers from entering the vessel during sterilization, shipping, storage, or other pre-use handling of the system. One or more addition lines connect the container and the vessel such that the vessel is in fluid communication with the vessel. The one or more addition lines are contactable by at least one blocking element configured to reversibly block fluid flow between the container and the vessel. The container, addition lines, and vessel are configured to allow the micro-carriers to be injected into the vessel at any point during a cell culture run. The vessel may also include a rotatable wheel, a harvest port configured to allow for the removal of the micro-carriers from the vessel, and a media removal port comprising a retention screen for removing spent medium.

Abstract: Macrocarriers for growing cells in bioreactors having generally ball-shaped outer profiles, with approximately the same dimension from side-to-side in all planes through the center of the macrocarrier. A series of generally horizontal plates and vertical ribs defined by the macrocarriers form flat surfaces for desirable cell growth.

Abstract: A system and method for compartmentalizing micro-carriers in a bioreactor includes a container configured to store micro-carriers and a vessel configured to contain a fluid so as to prevent the micro-carriers from entering the vessel during sterilization, shipping, storage, or other pre-use handling of the system. One or more addition lines connect the container and the vessel such that the vessel is in fluid communication with the vessel. The one or more addition lines are contactable by at least one blocking element configured to reversibly block fluid flow between the container and the vessel. The container, addition lines, and vessel are configured to allow the micro-carriers to be injected into the vessel at any point during a cell culture run. The vessel may also include a rotatable wheel, a harvest port configured to allow for the removal of the micro-carriers from the vessel, and a media removal port comprising a retention screen for removing spent medium.