To provide a closed system culture vessel for realizing culturing in which an aseptic state is maintained at the time of culturing, and making the reduction of the shear stress generated during conveyance after manufacturing possible. A closed system culture vessel 201 holds a second vessel 302 consisting of an insert vessel on the inside of a first vessel 301, and a lid portion 303 of the closed system culture vessel 201 forms a closed space with the first vessel 301 and has a convex portion 305 contacting the entire outer circumference of the second vessel 302. During conveyance, the closed system culture vessel is conveyed in a state in which the culture medium for conveyance is filled within the second vessel 302.

A cell culture apparatus comprises at least one storage space, at least one barrier, a working space, a sterilization space, and a control space. The at least one storage space comprises a container shelf, an upright track, a rotatable holder, and a light tube. The working space comprises a filling station and an inspecting station. The filling station comprises a first delivering device, an open-close device, and a filling mechanism. The inspecting station comprises a first inspecting mechanism and a second delivering device. Also provided is a method of using the cell culture apparatus including steps of filling, inspecting, or collecting cell cultures, therefore, the cell culture apparatus performs multiple cell culture processes automatically.

This disclosure relates to equipment utilized to manufacture chemical agents, particularly biopharmaceuticals. In some embodiments, reactor systems comprising a mobile carriage assembly; a disposable reaction container removably attached to the carriage assembly; and, a carriage holder into which the mobile carriage assembly may be removably inserted are provided.

Device (1) for the storage and selection of cartridges (20) that are pre-filled with reactive discs to be placed on a support of the type comprising 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) comprises a chamber (5) configured to house at least one magazine-holding support (3), said chamber (5) being fitted with a cooler (6) and provided with at least one placement opening (7) facing which the drive means (4) for rotating a magazine-holding support (3) are configured to position at least one magazine (2) of said support (3) in what is referred to as the placement configuration of said magazine (2), and the device (1) comprises a drive mechanism (8) driving 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).

Disclosed is a microorganism inoculation device, which comprises a workbench, wherein support columns are provided on the upper surface of the workbench, a limiting plate is provided in the middle part of the supporting column, an injection head is provided in the middle part of the limiting plate, an air cylinder is provided in the middle part of the lower surface of the workbench, a piston rod of the air cylinder is fixedly connected with the middle part of the upper surface of a lifting plate, guide rods are provided on the upper surface of the lifting plate, the upper end of the guide rod is fixedly connected with a tray, the left and right sides of the upper surface of the tray are fixedly connected with the lower part of a fixed bracket, the middle part of the injection head is slidably connected with the limiting plate.

Modularized components assembled dispensing nozzle, including operating components in the category of a poppet valve assembly, an automatic shutoff device, a hand operating lever for providing a turn on or shutoff of the dispensing of fluid through the nozzle, and a connected spout that delivers fluid to the fill pipe and fuel tank for a vehicle or fluid accepting container. Each of the identified components having been redesigned for assembly in modularized form, such as a modular cartridge for the poppet valve, a modular cartridge for the automatic shutoff device, a modularized operating hand lever, and a spout and its gland and retaining nut that provide for high speed interconnection with the nozzle body, during assembly, or servicing. Each of these modularized components can be installed, during assembly of the manufactured nozzle, or can be replaced, out in the field, by a service person, as a modularized component or cartridge assembly.

The present invention is directed to a multi-organ-chip device comprising a base layer; an organ layer arranged on the base layer; an antra layer arranged on the organ layer; and an actuator layer; wherein the base layer is configured to provide a solid support for the further layers; the organ layer is configured to comprise a multiplicity of individual organ equivalents, each organ equivalent comprising one or more organ growth sections, each of the organ growth sections being configured to comprise an organoid cavity for housing at least one organoid of an organ and to comprise a micro-inlet and a micro-outlet for fluid communication between the organoid cavity of the organ growth section and a self-contained circulation system, wherein the organ layer comprises at least one organ equivalent configured to represent the organs lung, small intestine, spleen, pancreas, liver, kidney and bone marrow, respectively, and a self-contained circulation system configured to be in direct fluid communication with the organ growth sections of the organ layer via the micro inlets and outlets of the organ growth sections; the antra layer is configured to comprise a multiplicity of cavities and tubes arranged to be in fluid communication with selected organ equivalents or organ growth sections in order to allow for exchange of fluids between cavities and organ growth sections; and the actuator layer is configured to comprise a multiplicity of actuators arranged and configured to regulate a pressure force applied on a selected organ equivalent, the self-contained circulation system and/or part thereof.

The automated cell culture arrangement according to the invention comprises at least one closed cell culture module with at least one bioreactor. The closed cell culture module is a closed system, which means that within the closed cell culture module a closed sterile environment can be maintained. The automated cell culture arrangement according to the invention, further comprises at least one pump for pumping liquids within the closed cell culture module and at least one additional tool module, which is configured or configurable to act upon or to monitor the contents of a bioreactor and is movable relative to the at least one closed cell culture module or it is movable relative to one or several components of the at least one closed cell culture module.

The present disclosure provides methods and materials for the cultivation and/or propagation of a photosynthetic organism. Such methods may comprise the use of a lamp assembly that comprises a plurality of circuit boards, each comprising at least three edges, arranged in a substantially spherical shape defining an interior lamp assembly volume, wherein the plurality of circuit boards comprise a first planar surface in contact with the interior lamp assembly volume and an opposing second planar surface comprising light emitting diodes (LEDs); and a barrier that surrounds the plurality of circuit boards forming the substantially spherical shape.

An apparatus for culturing cells of the present disclosure includes: a cabinet that has a main surface and a side surface, the main surface having a window; a main surface aspiration port disposed at the main surface of the cabinet; and a side surface aspiration port disposed at the side surface of the cabinet. In the cross section of the cabinet taken along the horizontal direction, a first vessel supplying part for supplying a first vessel is disposed at a midportion of the cabinet, and a second vessel supplying part for supplying a second vessel is disposed at an inner peripheral portion of the cabinet. The first vessel supplying part has a first lid capable of entirely covering the first vessel supplying part. The first vessel has no lid. The second vessel supplying part has no lid. The second vessel has a second lid.