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.

The present invention relates to a hybrid aseptic connection system and aseptic connection method for manufacturing an antibody pharmaceutical. In a hybrid system employing a medium storage tank made of a SS material and a bioreactor made of an SU disposable tube, to ensure a completely aseptic connection between the medium storage tank and the bioreactor, the completely aseptic connection between the medium storage tank and the bioreactor may be made by interconnection of the SU disposable tube through a welding process and the advantages of both the SS system and the SU system may be obtained at the same time. As a discharge line, an SU disposable tube and a steam trap tube are formed in a “Y” shape, the flowability in a medium transfer line may be improved and thus it is possible to prevent impurities such as a condensate from remaining in the medium transfer line.

Provided herein is a microphysiological system that may be used in various cell culture applications and biological system studies, that facilitates co-culture, monitoring, and study of functional interactions among different types of cellular and biological materials under various environmental conditions. The system is configured for fast assembly and disassembly, thereby minimizing damage or contamination of the biological materials and environmental conditions inside the system. The system comprises a base, a lid, and a plurality of clamps that are connected to the base and the lid. The base has a recess surface for receiving cell culture support layers. The lid has a stepped surface configured to exert a contact force to a top layer of one or more cell culture support layers during use. The clamp involves an engagement mechanism that generates a contact force allowing for sealing of the cell culture support layers in a manner that minimizes leakage of fluids.

A screw cap lidded container for laboratory use includes a container body defining a chamber, a tubular section of the container body that is connected at the rear to the chamber and has a container opening in the front and an external thread on the outer periphery of the tubular section. There is a circumferential first sealing surface on the tubular section and at least one first projection, which projects from the container body at a peripheral position of the tubular section, and a screw cap having an internal thread on the inner periphery that can be screwed onto the external thread with thread play, a second sealing surface on the screw cap can be brought into sealing contact with the first sealing surface, and at least one second projection, which projects at a peripheral position of the screw cap.

A container system includes a flexible bag bounding a chamber. A probe port includes an elongated tubular member having an interior surface bounding a first passageway and extending between a first end and an opposing second end, the first passageway being closed at the first end and open at the second end; and a flange encircling and radially outwardly projecting from the tubular member at or toward the second end thereof, the flange being secured to the flexible bag so that the first end of the elongated tubular member projects into the chamber of the flexible bag while the open second end of the elongated tubular member is accessible from outside of the flexible bag. A probe is received within the first passageway of the probe port.

A cell culture vessel including an accommodating part which is an inner space accommodating a cell culture support therein, a fixing member configured to fix the cell culture support to a lower surface of the accommodating part, wherein the fixing member includes a first adhesive layer attached to the lower surface of the accommodating part, a second adhesive layer attached to a lower surface of the cell culture support, and a support film interposed between the first adhesive layer and the second adhesive layer and configured to perform a support function, and an adhesive force between the second adhesive layer and the cell culture support is higher than an adhesive force between the first adhesive layer and the lower surface of the accommodating part.

A cell culture device includes a main body and a plug element. The main body includes a slot, an open groove and a fluid chamber. The open groove is connected with one side of the slot. The fluid chamber is disposed inside the main body and connected with another side of the slot. The plug element includes a first cell culture chamber and a first porous membrane. The first porous membrane is disposed at one side of the first cell culture chamber. The plug element is detachably plugged into the slot. When the plug element is plugged into the slot, the first cell culture chamber is communicated with the open groove to form an open space, and the open space and the fluid chamber are separated by the first porous membrane.

The invention relates to a medium-filled Petri dish into which filters can be introduced particularly simply, and to a method for the microbiological investigation of liquids or gases by means of filtration and incubation of the filters in said Petri dishes.

A bioreactor vessel includes a bottom, a peripheral sidewall, the bottom and the peripheral sidewall defining an interior space for receiving a flexible bioprocessing bag, a recess in the bottom for receiving a base plate of the flexible bioprocessing bag, and a locking mechanism configured to retain the base plate in the recess.

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.