An object of the present invention is to provide a transportation instrument and a transportation method that enable transportation by using a cell culture container as it is. Further, an object of the present invention is to provide a transportation instrument and a transportation method that enable supply of oxygen required for respiration of cells. Further, an object of the present invention is to provide a transportation instrument and a transportation method that enable suppression of migration of a culture medium into and out of cells caused by the influence of an increase in internal pressure with respect to the temperature during transportation. According to the present invention, provided is a cell preservation or transportation instrument including a plurality of cell storage containers, a plate which has a plurality of recesses for holding the plurality of cell storage containers therein, and a flexible material sheet which seals upper opening portions of the plurality of cell storage containers and upper side wall portions formed by side walls of the recesses of the plate and allows ventilation between an inside and an outside of the plurality of cell storage containers.

Polymer hydrogels and methods for selective retrieval of microbial targets from microwells and other cell culture devices. The methods use semi-permeable, photodegradable hydrogel membranes that permit exchange of nutrients and waste products but seals motile bacteria and other microbes within microwells. Light exposure can be used to degrade the hydrogel membrane in a targeted manner and release the microbes from targeted microwells for further study.

An apparatus for minimizing dead leg spaces in a container or tubing includes a first member having a flange for attaching the first member to a wall of the container or tubing, the flange having at least one aperture, and a second member rotatably coupled to the first member, the second member having an upper end having at least one aperture, and an open distal end. The second member is rotatable relative to the first member between a closed position where the at least one aperture of the second member is misaligned with the at least one aperture in the flange to prevent the passage of fluid, and an open position where the at least one aperture of the second member is aligned with the at least one aperture in the flange to allow for the passage of fluid.

A method of manufacturing a composite sensor assembly includes: providing a port including a high surface tension thermoplastic, the port having a hollow tubular portion and a base having a polymer surface; fusing the polymer surface of the port to a wall of a polymeric bioprocess vessel so that the port communicates with an opening in the wall; and retaining a sensor unit within the hollow tubular portion of the port with an adhesive, at least a portion of the sensor unit being polymeric, wherein the port provides the sensor unit access to an interior of the polymeric bioprocess vessel.

Some fluid coupling devices described herein are configured for use in fluid systems. For example, some embodiments described in this document are single-use, aseptic fluid coupling devices that can be coupled to create a sterile flow path therethrough. Some such aseptic couplings are genderless couplings such that two identical aseptic couplings can be coupled together and then latched to form a robust connection between the aseptic couplings.

The present disclosure discloses an incubator, comprising: a housing defining an incubation chamber, and the incubation chamber is a sealable structure; a shaker located inside the incubation chamber; one or more vent panels, which are each provided with a plurality of vent openings, wherein the incubation chamber is divided into a first area and a second area by the vent panels and the housing, and the shaker is located inside the first area; and a blowing device, for guiding gas flow; wherein, gas in the incubation chamber is driven to circulate between the first area and the second area through cooperation of the vent panels, an inner wall of the housing and the blowing device.

In an illustrative embodiment, automated multi-module cell editing instruments are provided to automate multiple edits into nucleic acid sequences inside one or more cells.

A cell culture apparatus includes an introduction-side flow path arranged to allow a culture solution introduced to flow therethrough and be introduced therethrough into each of a plurality of concave wells of a flexible strip circumferentially wound, and a first introduction-side seal provided on an outer circumferential side of the introduction-side flow path, the first introduction-side seal being configured to block flow of the culture solution from the introduction-side flow path to an outer circumferential side of the flexible strip.

An in situ probe, comprising reusable and disposable components, can be employed to measure cell viability in a rocking bioreactor.

The present invention provides apparatus and methods for production of tissue structures, organs, vaccines, and antibody products. In some examples, a cleanspace facility may be equipped with fluid interconnections and controls. The fluid interconnections may be located in a primary cleanspace or peripheral to a primary cleanspace. Sterilization may be performed within the primary cleanspace and within the fluid interconnections. In some examples, the facility may include modelling hardware and software, nanotechnology and microelectronic apparatus, and additive manufacturing equipment to print cells and support matrix to allow cells to grow into tissue structures and organs. Novel structures combining various cell types and electronics may be formed with the fabricator. In some examples, advanced vaccine products may be produced entirely within the scalable, sterile, and automated fabricator.