A bioreactor includes a rigid-walled vessel for containing a biological medium, the vessel having a lid. The bioreactor further includes a probe passing through an aperture in the lid and having a sensing end inside the vessel and a remote end outside the vessel. The sensing end has plural electrodes for immersion in the biological medium, and the remote end is configured for coupling to external devices and transmission thereto of electrical or electromagnetic measurements made by the electrodes. One of the lid and the probe has one or more resiliently deformable mechanisms and the other of the lid and the probe has one or more respective complementary surfaces. The resiliently deformable mechanisms and the complementary surfaces are configured such that, on insertion of the probe through the aperture to assemble the probe to the lid, the one or more resiliently deformable mechanisms are first deformed on sliding against the one or more complementary surfaces and then resile when the probe reaches a predetermined insertion position relative to the lid to secure the probe to the lid. One of the lid and the probe carries a sealing element which seals the probe to the lid when the probe is secured at the predetermined position.

A bioreactor (1; 2; 3) includes a receiving container (10) for receiving a disposable bag (44). A bottom surface (11) of the receiving container (10) is designed to support the disposable bag (44) in the receiving container (10). An outlet opening (5) is formed in the bottom surface (11) and tapers down with respect to the ground for receiving a drain port (45) of the disposable bag (44). The drain port is complementary to the outlet opening (5).

A bioreactor for producing hydrogen gas and other metabolites. The bioreactor utilizes light, fermentation, and other metabolic processes for the production of metabolites, derived from various microorganisms contained within the bioreactor through respective metabolic pathways. The bioreactor comprises a main reactor chamber, a semipermeable membrane, a sleeve, a power supply, a substrate medium, a heating member, a plurality of tubing members, a collection reservoir, a pressure-sealed connecter member, and an agitator.

This invention provides a cell culture substrate comprising on its surface a fluorine-containing polymer that enables three-dimensional tissue culture. The cell culture substrate of the invention has a surface at least a part of which is composed of a resin composition comprising a fluorine-containing polymer having one or more fluorine atoms in a repeating unit and exhibits the oxygen gas permeability of 219 cm.sup.3 (STP)/(m.sup.2.Math.24 h.Math.atm) or higher. Three-dimensional tissue can be formed via cell culture with the use of the cell culture substrate of the invention.

A culture container made of a flexible packaging material where the culture container includes a first side surface portion and a second side surface portion that are mutually opposed. The culture container also includes at least an inner surface side of the first side surface portion which has a surface treatment such that, when a contact angle hysteresis is defined as an advance contact angle—a retreat contact angle at a time when water slips, a contact angle hysteresis of a surface on the inner surface side of the first side surface portion becomes larger than a contact angle hysteresis of a surface on an inner surface side of the second side surface portion. The culture container further includes a membrane made of a cell adhesion inhibitor that is formed on the inner surface side of the first side surface portion.

An organ container includes flexible films and a tube holder. The films hold an organ in contact with the surface of the organ. The tube holder holds tubes that extend between the organ in the films and an outside of the films. This makes it possible to hold and preserve the organ while allowing a liquid to be perfused through the organ via the tubes. It is also possible to reduce movements of the organ relative to the organ container and to reduce damage to the organ.

A bioreactor system includes a vessel having a bottom floor, a flexible bioprocessing bag disposed within the vessel, and a flexible bladder positioned intermediate the bottom floor of the vessel and the bioprocessing bag. The flexible bladder is selectively inflatable to vary at least one of a geometry or configuration of the bioprocessing bag to provide for improved drainability or an increased turndown ratio for the bioreactor system.

The present invention relates to a bioprocess bag 118 comprising a bag wall defining an enclosed volume for holding biomaterials. The bag wall comprises at least one inlet port 142 and at least one outlet port 146. The bioprocess bag 118 also comprises a tube structure 400 comprising a first opened-end proximate the bag wall and a second distal end, the tube extending into the enclosed volume, and the tube structure 400 comprising a reinforced portion 402 proximate the first opened-end.

A biological component treatment system includes a biological component kit, and a biological component treatment device in which the biological component kit is set. The biological component kit includes tubes and a biological component cassette, the biological component cassette includes flow paths in the interior thereof, and is equipped with a cassette main body formed in a sheet shape that possesses flexibility. In the flow paths, there are provided target parameter detection parts that make it possible to detect parameters related to the culturing of cells, and the target parameter detection parts include chips that undergo coloring in response to a predetermined substance contained in a liquid. Further, the biological component treatment device includes optical sensors that detect parameters related to culturing of cells.

The present set of embodiments relate to a system, method, and apparatus for hydrating and mixing a liquid medium from a dry medium. Such systems, methods, and apparatuses can be used in the biotech industry because they can be used to provide prepackaged dry media in a format that can be quickly rehydrated free of issues with operator error found in more conventional media rehydration systems using mixing tanks and reactors.