The invention relates to a method for monitoring the temperature of a cryopreserved biological sample. The invention also relates to a device for monitoring the temperature of a cryopreserved biological sample. The device (10) for monitoring the temperature of a cryopreserved biological sample comprises a sample container (1) having a receiving space (2) for receiving a biological sample (6). The device also comprises at least one chamber (11) having an interior that is not fluidically connected to the receiving space (2) and is only partially filled with an indicator substance (7) with a melting temperature in a region of −20° C. to −140° C. The chamber (11) has a barrier (13) that causes the indicator substance (7) to move into a second sub-region (12b) of the chamber (11) when the indicator substance (7) in a first sub-region (12a) of the chamber is in the fluid aggregate state.

The present disclosure pertains to methods of growing bacterial host cells in a low-density polyethylene (LDPE) bag to produce plasmid DNA or express recombinant protein. The LDPE bag is filled with media, an antibiotic, and host bacterial cells that have been transformed with plasmid DNA encoding a protein of interest. The LDPE bag is sealable to the external environment and incubated at a growth temperature until a desired concentration of bacteria is achieved. When plasmid DNA is desired, host cells are harvested and plasmid DNA is separated from host cell components. When recombinant protein is desired, expression is induced while host cells are in the LDPE bag, followed by the harvest and separation of the recombinant protein. The LDPE bags are sterile and conducive to bacterial growth equal to or greater than that afforded by conventional shake flasks under similar growth conditions.

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.

A packaging for a bioprocessing bag includes a housing having an open interior space, and a support base attached to an external side of the housing, the support base having a recess for receiving an impeller base plate of a bioprocessing bag.

A cell culture device (1) includes: a culture vessel (10 ) that accommodates a cell suspension containing cells and a culture medium; and a stirring device (30) that is provided at a bottom part of the culture vessel (10) to stir the cell suspension accommodated in the culture vessel (10). The stirring device (30) has a shaft part (32), and a rotating part (33) rotatable with the shaft part (32) as a rotation axis. The rotating part (33) has a hole part (36) into which the shaft part (32) is inserted, and a gap (37) of 100 μm or more is secured between an interior wall demarcating the hole part (36) and the shaft part (32). A closing part (38) that closes an end part of the gap (37) in an axial direction of the rotation axis is provided.

The present set of embodiments relate to a system, method, and apparatus controlling a cell culture media mixing system. The control system includes an integrated control unit capable of controlling a broad ranges of peripheral devices commonly used in bioproduction through a graphical user interface displayed on a touch sensitive screen. The bioproduction system is designed to be highly customizable through process modification and recipe creation by user with little or no knowledge of programming and is capable of controlling a wide variety of devices using a single unit. The bioproduction system allows for auto-detection, auto-calibration, and automatic of device related processes into a bioproduction workflow.

The invention discloses a flexible bag assembly for cultivation of cells, comprising one or more bags forming a plurality of cultivation compartments, wherein a drain port in at least a first cultivation compartment is adapted to be fluidically connected with a second cultivation compartment upon opening of a valve means. It also discloses a bioreactor with the bag assembly mounted on a rocking tray and a method of cultivating cells in the assembly.

Disclosed is a cell culture system comprising a first cell culture bioreactor system (10) for culturing cells to a predetermined cell density or quantity, the system including a bioreactor volume (20), a process controller (30), process control devices (32) which provide inputs (16) for the culture volume and culture parameter measurement devices (14), wherein the process controller is operable according to plural control program steps to control the process devices to provide inputs for a suitable cell culture environment in the bioreactor volume, and is further operable according to control program steps modified by feedback values from the culture parameter measurement devices, and comprises a memory (36) operable to record data indicative of the progress of the control program steps. Failure of the system can be rectified by moving the bioreactor volume to another similar system which has access to data indicative of any incomplete program steps which steps may have been modified by feedback from the measurement devices.

Cell separation systems, and methods for separating cells from microcarriers, and harvesting the separated cells, are provided, wherein the system comprises a cell separation device, a cell settling device, and a cell screening device.

A movable cell incubator contains: a body, a first lid, a second lid and an electric control unit. The body includes a first internal space, a refrigeration room, and an airtight culture room. The first lid airtightly covers the culture room, the second lid airtightly covers the refrigeration room, and the control unit includes a microprocessor, a power module, a digital/analog conversion module defined between a microprocessor and the power module, a heating module controlling temperature of the culture room, a cooling module supplying cold source to the refrigeration room, a peristaltic pump module, a flow sensing module, a CO2 detective supply module supplying CO2 to the culture room, and a setting display module exposing and fixed on the first lid, with the peristaltic pump module aseptically connected between cell culture media and cell culture bag by multiple conveying tubes.