A continuous automated perfusion culture analysis system (CAPCAS) comprises one or more fluidic systems configured to operate large numbers of biodevices in parallel. Each fluidic system comprises an input reservoir plate for receiving media; a biodevice plate comprising an array of biodevices fluidically coupled to the input reservoir plate, configured such that each biodevice has independent media delivery, fluid removal, stirring, and gas control, and each biodevice is capable of continuously receiving the media from the input reservoir plate; and an output plate fluidically coupled to the biodevice plate for real-time analysis and sampling. The operations of the CAPCAS are automated and computer-controlled wirelessly. The CAPCAS can also be used for abiotic and biotic chemical synthesis processes.

Compositions of matter, methods, modules, and automated instruments may relate to synthesizing a library including an editing cassette including a different gRNA and donor DNA pair, amplifying the editing cassette in a partition separate from other editing cassettes in the library, adding nuclease to the partition, and adding lipofectamine to the editing cassette and nuclease to form a lipofectamine/nucleic acid/nuclease complex. A microcarrier coated in extracellular matrix or a cell adhesion molecule coating may be added to the lipofectamine/nucleic acid/nuclease complex. Cell growth material, the microcarrier, and mammalian cells may be transferred to a growth module in an automated closed cell editing instrument via a liquid handling system. The mammalian cells may be allowed to seed on the microcarrier. Conditions may be provided for the mammalian cells to take-up and be edited by a payload associated with the lipofectamine/nucleic acid/nuclease complex. The mammalian cells may be detached from the microcarrier.

The present invention relates to an assembly system for assembling a modular smart tank, a method for assembling a modular smart tank, a mobile storage means and an assembly bag. The assembly system comprises at least one mobile storage means for storing components of at least one smart tank, an assembly room, wherein the assembly room is adapted to provide clean room conditions and wherein the assembly room is configured to allow assembly of at least one smart tank within the assembly room from the components stored in the mobile storage means, and a manipulator, being adapted to automatically assemble the smart tank within the assembly room.

The invention relates to a conveying device (IO) for positioning and providing laboratory vessels (12; 12a, 12b, 12c) for nutrient media, samples, microorganisms, cell cultures, or the like for analysis, sample preparation, and/or sample manipulation at an associated apparatus (64), comprising at least one first conveying unit (32) for conveying the laboratory vessels (12) between an initial region (30) and a provision region (60), where the laboratory vessel (12) is held for the analysis or preparation. According to the invention, a plurality of conveying units is present, which perform only a translational motion of the laboratory vessel (12) along an axis, wherein the first conveying unit (32) vertically conveys the laboratory vessel (12) from the initial region (30) to a predetermined height region (50) and vice versa, and a second conveying unit (56) is provided, which horizontally conveys the laboratory vessel (12) from the height region (50) to the provision region and vice versa.

A reactor module includes a lower body, an upper body, a top cover and a culture vessel. The lower body defines and surrounds a bottom space that has an upper opening. The upper body is detachably connected atop the lower body. The top cover is disposed atop the upper body, and cooperatives with the upper body to define a receiving space that is disposed above the bottom space. The culture vessel is removably received in the receiving space, defines a culture reservoir, and includes a film member that is disposed under the culture reservoir, and that blocks the upper opening of the bottom space.

Methods and systems for cell media exchange wherein media may be aspirated without also aspirating cells and wherein removal and re-plating of cells is not necessarily required. For example, the cell culture system or apparatus features a gap that is small enough to retain cells therein and also sized to prevent media from leaking. The methods and systems of the present invention may help reduce stress and damage to cells as compared to traditional methods that require removing and re-plating cells.

The present invention provides a system and a method for the production of cells and/or cell products. The system comprises at least one cell culture unit comprising at least one bioreactor for culturing cells, at least one technical control unit for controlling a cell growth parameters, said technical control unit is at least fluidly connected to the cell culture unit, and at least one air treatment unit for treating ambient air, said air treatment unit is fluidly connected to the cell culture unit. The system is characterized in that the system is autonomous and the bioreactor total volume is at most 1000L.

Disclosed herein are cell processing systems, devices, and methods thereof. A system for cell processing may comprise a plurality of instruments each independently configured to perform one or more cell processing operations upon a cartridge, and a robot capable of moving the cartridge between each of the plurality of instruments.

A system for processing biological material includes a first module and at least a second module, in which each of said first and second modules has at least the following identical characteristics: a size and a shape of a housing; a storage device being rotatably located within said housing; and a plurality of plate slots located in the storage device for receiving plates or containers carrying pipette tips, cell cultures or liquids. The first and second modules are selected from a process module, a storage module, an incubator, a freezer, a plastic-ware store, a refrigerator or a centrifuge.

A bioreactor and method of forming complex three-dimensional tissue constructs in a single culture chamber. The bioreactor and methods may be used to form multi-phasic tissue constructs having tissue formed from multiple cell types in a single culture chamber. The bioreactor includes at least one translation mechanism to facilitate translation of one or more tissue constructs without direct user intervention, thereby providing a closed, sterile environment for complex tissue fabrication. The bioreactor may be used as a stand-alone device or as part of a large-scale system including many bioreactors. The large-scale system may include a perfusion system to monitor and regulate the tissue culture environment.