This cell production device comprises: a cell production plate that includes a fluid circuit in which a plurality of functional sites are integrated; and a closed type connector that connects the fluid circuit to an external space in a closed manner, wherein the fluid circuit comprises, as the plurality of functional sites, an injection and discharge unit that injects or discharges a fluid into or out of the fluid circuit via the closed type connector, a variable volume unit that stores a fluid that is extruded or withdrawn by the injected or discharged fluid, and a cell induction and culture unit that performs at least one of induction and culture of cells based on the injected fluid.

The present disclosure relates to a well plate for 3D cell spheroid culture that facilitates 3D cell spheroid culture and enables cell adhesion and detachment by adjusting a surface roughness, a method for manufacturing the well plate for 3D cell spheroid culture, and a method for 3D cell spheroid culture using the same.

The present invention relates to systems and methods for tissue processing and analysis. Tissue chambers are configured to allow single-container chemical processing, imaging, and wax embedding of tissue samples in a single container without manipulation between steps. Tissue chambers with features to support the tissue sample and allow fluid flow between the tissue sample and the tissue chamber surface are disclosed. The features may be index matched to sample structures of interest or dissolvable in clearing solution to allow for in-chamber imaging with minimal distortion. Specialized tissue processing and wax removal apparatuses are also disclosed including for use with tissue chambers having frangible portions to permit ease of wax removal.

The present invention relates to a novel bioreactor system for cell cultivation. More specifically, the invention relates to a compact bioreactor system which has several integrated functions and enables small scale static culture as well as scale-up rocking culture in the same bioreactor. The bioreactor system comprises tray for positioning of a cell culture bag having adjustable volume, a lid covering the cell culture bag and provided with heating function, an integrated perfusion unit, an integrated cell loading unit, and an integrated unit for automatic cell culture sampling, wherein the bioreactor system is controlled by a single control unit. The invention also relates to a method of cell culture using the bioreactor system for culture of therapeutic cells.

This invention is a system for the production of biomass from photosynthesizing microorganisms that includes a photobioreactor comprising a transparent panel made from two transparent sheets with a separation between them, with top and bottom openings and with transparent, parallel subdivisions that form a panel of vertically arranged, transparent cells, where each transparent cell has a top opening and a bottom opening; a lower recirculation chamber in fluid contact with the bottom openings of the transparent panel; an upper recirculation chamber in fluid contact with the top openings of the transparent panel; a gas distribution tube externally arranged along the edge of said transparent panel; where said gas distribution tube comprises gas injectors arranged in fluid contact with the interior of a plurality of transparent cells; and a supporting structure that supports the transparent panel, the lower recirculation chamber, the upper recirculation chamber and the air distribution tube.

A bioreactor for culturing of cells is described. Screens suitable as a cell growth scaffold may comprise crossed fibers. Screens may be contained loosely in a screen holder, which in turn may be contained inside a manifold assembly. A lower manifold, screen holder and upper manifold may have identical or similar interior open cross-sections. Flow of liquid medium can occur upwardly through the array of screens, then flowing over a weir in the presence of an air pocket, and into a moat and a pump. The screen holder may have slots whose exterior-facing ligaments are rounded, and may have grooves whose interior-facing edges are rounded. These components may be located inside an incubator suitable to maintain desired environmental conditions and cleanliness.

A device for growing microorganisms. The device can include a self-supporting, water-proof substrate having an inner-facing surface and an outer-facing surface; a cover sheet having an inner-facing surface and an outer-facing surface, the cover sheet adhered to at least a portion of the substrate; a microstructured surface on the inner-facing surface of the coversheet, wherein the microstructured surface comprises a plurality of microstructures; a substantially dry, gelling agent and a substantially dry, microbial growth nutrient composition disposed on the microstructured surface of the microstructured film or on a portion of the inner-facing surface of the substrate.

A transfection device suitable for delivery of various macrostructures (e.g., mitochondria, bacteria, liposomes) is described and uses mechanical force to thereby induce active endocytosis in a target cell. Contemplated devices are able to achieve high throughput of transfected cells that remain viable and are capable of producing colonies.

The present invention relates to a bioreactor assembly comprising a plurality of trays (30) for holding a cell culture bag, a holder (2) on which the trays are mounted side by side to form a first series of trays rocking mechanism (4) for rocking the trays, the rocking mechanism (4) being operatively connected to each of the trays (30). The invention also relates to a bioreactor system (100) comprising at least one bioreactor assembly.

A cell culture vessel, cell culture monitoring system, and Raman spectroscopy system for non-invasive measuring of a cell culture are provided. The vessel includes a cell culture chamber that operates as a closed system, a wall defining a boundary of the cell culture chamber and separating the interior space of the cell culture chamber from an exterior of the cell culture chamber, and a window disposed in the wall and separating the interior space of the cell culture chamber from an exterior of the cell culture chamber. The cell culture chamber includes an interior space for housing at least one of the cell culture and a cell culture media. The window includes a polymer and allows monitoring of the cell culture via a monitoring module disposed on the exterior without the monitoring module coming into physical contact with the cell culture or the cell culture media.