Abstract: A cell culture apparatus includes a cell culture module including multiple cell culture chambers. A manifold connects the multiple cell culture chambers together along a side of the cell culture module. The manifold includes a side wall base structure connected to the side of the cell culture module and a column structure that is formed as a monolithic part of the side wall base structure. The column structure defines a fluid flow pathway through the manifold and to inlets to the cell culture chambers to allow filling and emptying of the cell culture chambers of liquid medium.

Abstract: A cell culture vessel has a wall and cell culture surface having a plurality of microcavities for culturing cells in three-dimensional conformation, referred to as “spheroids”. The inner surface of the wall and the cell culture surface define a cell culture chamber of the vessel. The wall is attached to the cell culture surface in a way that does not provide flat surfaces on or around the cell culture surface so that the vessel provides an environment suitable for the production of a homogeneous population of three-dimensional cell clusters, or spheroids.

Abstract: This disclosure provides a cell culture media extending material capable of releasing nutrients into the cell culture environment slowly overtime. In embodiments, this material is a part of a cell culture vessel. In embodiments, the material is a coating or a film on a surface of a cell culture material. In additional embodiments, the material is a surface upon which cells are cultured, such as a cell culture vessel or a microcarrier.

Abstract: A fault insertion device (FID) comprises a transceiver and an FPGA. The transceiver receives signals from a MIL-STD-1553/1760 communications bus. The FPGA evaluates the signals received from the communications bus against a set of rules stored by the FPGA. Based upon the set of rules, the FPGA can selectively modify messages received from the communications bus prior to transmission to a remote terminal or a bus controller that is configured to communicate on the communications bus.

Abstract: A microcavity dish (10) for cultivating cells includes a dish body including a sidewall (16) that encloses a cell culture chamber within the dish body. The dish body has a top and a bottom (12). The bottom includes a cell culturing substrate comprising an array of microcavities (46). The sidewall includes a transition portion (30) that divides the sidewall into an upper portion and a lower portion that is offset inward relative to the upper portion defining a liquid medium delivery surface (26) that extends at least partially along an interior surface (28) of the sidewall and slopes toward the bottom.

Abstract: A multilayered cell culture apparatus for the culturing of cells is disclosed. The cell culture apparatus is defined as an integral structure having a plurality of cell culture chambers in combination with tracheal space(s). The body of the apparatus has imparted therein gas permeable membranes in combination with tracheal spaces that will allow the free flow of gases between the cell culture chambers and the external environment. The flask body also includes an aperture that will allow access to the cell growth chambers by means of a needle or cannula. The size of the apparatus, and location of an optional neck and cap section, allows for its manipulation by standard automated assay equipment, further making the apparatus ideal for high throughput applications.

Abstract: A method of evaluating risk associated with a social media account. Content associated with the account and with social media accounts connected to the account is scanned. Collected data relating to the account content and the connected account content is stored. The account content is analyzed by determining one or more of characteristics of a posted image, parameters of posted comments, and changes in the list of connected social media accounts. The collected data is also analyzed to characterize the connected social media accounts with levels of suspicion. A report may be generated that includes one or more of: information identifying at least some of the account content as presenting a risk based upon characteristics of posted images or comments, information identifying material changes in account user traffic, and information identifying one or more of the connected social media accounts as being associated with suspicious activity.

Abstract: A cell culture apparatus includes a cell culture module including multiple cell culture chambers. A manifold connects the multiple cell culture chambers together along a side of the cell culture module. The manifold includes a side wall base structure connected to the side of the cell culture module and a column structure that is formed as a monolithic part of the side wall base structure. The column structure defines a fluid flow pathway through the manifold and to inlets to the cell culture chambers to allow filling and emptying of the cell culture chambers of liquid medium.

Abstract: A cell separation device configured for separating cells from microcarriers or spheroids in a liquid is provided. The cell separation device includes a vessel comprising a first port, a second port, and a cavity; and a porous mesh disposed within the cavity to divide the cavity into a first compartment and a second compartment, wherein the first port is in communication with the first compartment of the cavity, the first port located to a first side of the porous mesh, wherein the second port is in communication with the second compartment of the cavity, the second port located to a second side of the porous mesh, and wherein the porous mesh is positioned within the cavity to have a substantially vertical orientation or an inclined orientation with respect to a flow of liquid through the porous mesh.

Abstract: A cell culture vessel has a wall and cell culture surface having a plurality of microcavities for culturing cells in three-dimensional conformation, referred to as “spheroids”. The inner surface of the wall and the cell culture surface define a cell culture chamber of the vessel. The wall is attached to the cell culture surface in a way that does not provide flat surfaces on or around the cell culture surface so that the vessel provides an environment suitable for the production of a homogeneous population of three-dimensional cell clusters, or spheroids.

Abstract: A method of evaluating risk associated with a social media account. Content associated with the account and with social media accounts connected to the account is scanned. Collected data relating to the account content and the connected account content is stored. The account content is analyzed by determining one or more of characteristics of a posted image, parameters of posted comments, and changes in the list of connected social media accounts. The collected data is also analyzed in order to characterize the connected social media accounts with levels of suspicion. A report may be generated that includes one or more of: information identifying at least some of the account content as presenting a risk based upon characteristics of posted images or comments, information identifying material changes in account user traffic, and information identifying one or more of the connected social media accounts as being associated with suspicious activity.

Abstract: Microcavity plates (10) comprise a microcavity substrate and a base (303) comprising a bottom grid comprising a plurality of grid segments arranged in ordered rows and columns to form a plurality of openings, and an open well (307) comprising a plurality of sidewalls (309) extending vertically from a perimeter of the bottom grid. The microcavity substrate comprises a plurality of microcavities (315) arranged in ordered rows and columns that align with the plurality of openings in the bottom grid, each microcavity comprising a cavity disposed within an opening of the bottom grid. The microcavity plate may further comprise an upper grid (405) for placement on top of the bottom grid delineating the ordered rows and columns of the base.

Abstract: A cell culture device comprises a multi-well cell culture plate comprising a plurality of wells, each well comprising a top, a bottom, and a sidewall disposed between the top and the bottom and having an interior surface comprising an ultra-low attachment surface. A plurality of scaffolds are disposed within wells of the multi-well cell culture plate, each scaffold comprising a cell-adherent surface. In some embodiments, the scaffold comprises a fiber scaffold. In some embodiments, the scaffold comprises an artificial vascular scaffold. In some embodiments, cell culture devices comprise a plurality of hydrogel scaffolds disposed in a multi-well cell culture plate, the plurality of hydrogel scaffolds comprising hydrogel fibers of differing lengths, wherein opposite ends of a hydrogel fiber are disposed in different wells within the multi-well cell culture plate to create interconnected wells.

Abstract: A cell culture vessel includes a vessel body, support columns, and a stabilizer device. The vessel body defines a cell culture chamber enclosed between a bottom wall and a top wall. The support column is within the cell culture chamber and extends between the top wall and the bottom wall. The stabilizer device covers a width and length of the cell culture chamber and has a column engaging structure that is sized to slidingly engage the support column such that the stabilizer device is movable along the support column as a liquid culture medium is received in the cell culture chamber. The support column guides the stabilizer device along a length of the support column as the stabilizer device rises with rising liquid level in the cell culture chamber during a liquid culture medium filling operation.

Abstract: A cell separation device configured for separating cells from microcarriers or spheroids in a liquid is provided. The cell separation device includes a vessel comprising a first port, a second port, and a cavity; and a porous mesh disposed within the cavity to divide the cavity into a first compartment and a second compartment, wherein the first port is in communication with the first compartment of the cavity, the first port located to a first side of the porous mesh, wherein the second port is in communication with the second compartment of the cavity, the second port located to a second side of the porous mesh, and wherein the porous mesh is positioned within the cavity to have a substantially vertical orientation or an inclined orientation with respect to a flow of liquid through the porous mesh.

Abstract: A cell culture system is provided that includes at least one multi-layered vessel for culturing cells, and a cabinet comprising an interior cavity enclosed by one or more sidewalls. The cabinet being configured to house the multi-layered vessel within the interior cavity. The multi-layered vessel includes a cell culture space within the multi-layered vessel. The cabinet can change an orientation of the multi-layered vessel from an upright orientation to a tilted orientation.

Abstract: A cell culture vessel (100) includes a wall including an inner surface defining a cell culture chamber of the vessel. A substrate (215) of non-porous material is positioned in the cell culture chamber between a first region of the cell culture chamber and a second region of the cell culture chamber. The substrate includes a plurality of microcavities (220), each microcavity of the plurality of microcavities includes a concave surface defining a well and an opening, the concave surface of each microcavity includes at least one aperture including a dimension less than or equal to about 15 microns defining a path from the well to the second region. A cell culture vessel including a substrate including a plurality of microcavities and a layer of porous material is also provided. Methods of culturing cells in the cell culture vessel are also provided.

Abstract: A cell monitoring plate comprises a flat surface on which multiple cell culturing vessels may be stacked. The flats surface has multiple optical imaging systems embedded therein to fully image a cell culture vessels stacked on the plate. Each one of the multiple optical imaging systems provides both illumination and imaging through a single aperture in the surface of the monitoring plate.

Abstract: Vial assemblies comprise a tubular body and a cap, the cap including a first portion configured to abut a lip of an open end of the tubular body, a threaded portion configured to couple to threading on an internal surface of the tubular body, and a second portion protruding from the threaded portion and extending into a cavity of the tubular body. Methods for storing and removing frozen samples from such vial assemblies are also described.

Abstract: A fluidic device for culturing cells includes a microplate and plate lid. The microplate includes multiple wells and channels, the channels extending between the wells such that the channels interconnect the wells. The plate lid releasably engages the microplate to thereby enclose the wells and the channels. The wells include a culture surface such that a cell culture medium received therein is deposited over the culture surface. At least one channel that extends between adjacent ones of the wells is spaced from the culture surfaces of the adjacent wells defining a gap between the at least one channel and the culture surfaces of the adjacent wells for collection of the cell culture medium.