The present invention is directed generally to dry cell culture media or feeds in pellet formats which can be reconstituted into liquid media for culturing cells in vitro. Each pellet composition may comprise the same or a different composition; for example, different vitamins, amino acids, buffers, trace salts, pH, iron chelators, etc. The invention also relates to methods of making dry cell culture media by altering ratios of different pellet compositions, or, methods of making modular dry cell culture media, or customizing media formulations for growing a cell type using pellets. The media pellets may be easier to handle either before reconstitution, during shipping and handling; and/or during reconstitution. Media pellets may be used in any container like bags including sterile, single use bags for preparing media formulations. The invention also relates to kits and culture systems using media pellets.

A device is provided for the storage and selection of cartridges (20) that are pre-filled with reactive discs to be placed on a support. The support has a plurality of magazines (2) each able to store a cartridge (20) of discs, at least one magazine-holding support (3) and, for each support (3), drive means (4) for moving the magazine-holding support (3). The device (1) has a chamber (5) for housing at least one magazine-holding support (3). A drive mechanism (8) drives the movement of the magazine (2) in the placement configuration between a position in which said magazine (2) is distant from and a position in which same is closer to the placement opening (7) of the chamber (5).

Provided are a cell dispensing and storing apparatus and a method of the same. The method includes: moving a freezing container with a test tube in it and a temporary storage bottle containing sample cells into a dispensing area. Connect the temporary storage bottle with an injecting assembly. A dispensing clamp moves the test tube from the freezing container to a tube rack on a rotating platform. A rotating clamp removes a tube cover from the test tube. An injecting nozzle extracts the sample cells from the temporary storage bottle and dispenses the sample cells into the test tube. The rotating clamp puts the tube cover back on the test tube. The dispensing clamp moves the test tube back into the freezing container. A freezing clamp moves the freezing container into a freezer.

The present invention is directed generally to dry cell culture media or feeds in pellet formats which can be reconstituted into liquid media for culturing cells in vitro. Each pellet composition may comprise the same or a different composition; for example, different vitamins, amino acids, buffers, trace salts, pH, iron chelators, etc. The invention also relates to methods of making dry cell culture media by altering ratios of different pellet compositions, or, methods of making modular dry cell culture media, or customizing media formulations for growing a cell type using pellets. According to the invention, media pellets may be easier to handle either before reconstitution, during shipping and handling; and/or during reconstitution. Media pellets may be used in any container like bags including sterile, single use bags for preparing media formulations. The invention also relates to kits and culture systems using media pellets.

A culture medium preparator includes a cylindrical vessel that terminates at the low part in a substantially hemispherical cap, a lid and a stirrer placed in the vessel. The stirrer includes a vertical tube placed in the center of the vessel, a plurality of blades put into rotation about the tube and magnetic masses at the periphery so that they are placed in proximity to the internal wall of the vessel. The preparator furthermore includes a magnetic ring in rotation about the internal wall at the same height as the magnetic masses. The magnets attract the magnetic masses, the magnetic ring being moved in rotation by a motor. In this way, the stirrer is driven in rotation without requiring mechanical elements placed inside the vessel, the absence of such elements facilitating the cleaning.

A separating system (1) comprises a housing (60) sized to receive a stack of articles having at least one first article (12) stacked on top of a second article (10). The system (1) also includes a lifter (20) movable into a contact position adjacent a surface (13) on the at least one first article (12). The lifter (20) is adapted to apply a lifting force to the surface (13) to lift at least a portion of the first article (12) above the contact position. An extractor (40) moves the second article (10) away from the stack of articles after the at least one first article (12) has been lifted above the contact position by the lifter (20). The housing (60) prevents the at least one first article (12) from moving with the second article (10) when the second article (10) is moved by the extractor (40) and guides the stack of articles downward after the second article (10) is moved away.

A human limbal epithelial stem xenobiotic free cell culture system is provided. The cell culture system typically includes a cell culture media comprising isoproterenol, Human Epidermal Growth Factor (EGF), N2 supplement, hydrocortisone, and an antibiotic. This cell culture media can efficiently propagate undifferentiated LSCs in the absence xenobiotic cells. These systems provide an optimized way to culture LSCs for use in human transplantation (e.g. in patients suffering from limbal stem cell deficiency) by minimizing the risk of cross-contamination and/or reagent toxicity to transplant recipients.

An aseptic bioprocess package is provided herein. The aseptic bioprocess package includes a 2D flexible container including an interior compartment, a height having an upper half and a lower half, an inlet and an outlet, the inlet and the outlet being disposed on the same half of the 2D flexible container and a channel-forming feature in the interior compartment of the container, the channel-forming feature being configured to maintain a fluid flow path that fluidly connects the interior compartment of the flexible container with the outlet.