A system for buoyant particle processing includes: a reaction vessel, a stirring mechanism, a set of one or more pumps, and a filter. The system can additionally or alternatively include a set of pathways and/or any other suitable component(s). A method for buoyant particle processing includes: stirring the contents of a reaction vessel; washing a set of buoyant particles; and filtering the contents of the reaction vessel. Additionally or alternatively, the method can include any or all of: preprocessing the set of buoyant particles; adding a set of inputs to the reaction vessel; washing the set of buoyant particles; repeating one or more; and/or any other suitable process(es).

High-throughput column arrays of vascularized living parenchyma/tissue having pillars dispersed in specialized configurations and arrangements substantially vertically through the column to provide support, passive or active perfusion, and access to internal portions of tissue for analytical sampling needs, along with 3-D printing methods of manufacture and analytical screening methods employing the column arrays.

The present invention relates to devices and methods for collecting liquid samples such as for removing a target liquid sample fraction from a larger liquid sample, e.g., from a biological sample. These devices and methods are particularly useful for rapidly and cost-effectively removing the buffy coat layer from an anticoagulated blood sample. These devices and methods have the advantage that the removal can be made on blood sample processed by ordinary centrifugation and do not require more complicated or costly processing techniques such as density gradient centrifugation.

Disclosed herein are platforms, systems, and methods including a cell culture system that includes a cell culture container comprising a cell culture, the cell culture receiving input cells, a cell imaging subsystem configured to acquire images of the cell culture, a computing subsystem configured to perform a cell culture process on the cell culture according to the images acquired by the cell imaging subsystem, and a cell editing subsystem configured to edit the cell culture to produce output cell products according to the cell culture process.

A method of lithographic masking for spatially localized biochemical stimulus delivery, comprising the steps of providing a group of cells on a substrate, coating a layer of gelatin on a portion of the cells, creating a mask layer on a portion of the layer of gelatin on a portion of the cells, and creating an area of masked cells and an area of unmasked cells. Further, the method can include delivering a biochemical signal to the area of unmasked cells, removing the mask layer, and allowing the cells with the biochemical signal and the cells without the biochemical signal to interact freely.

Described herein are compositions, methods, kits, and systems relating to smooth, spherical microgels which can be charge-neutral. The microgels can be made using an emulsification process. In certain aspects, charge-neutral microgels as described herein are suitable for 3D cell culture, use in perfusion bioreactors, and/or 3D printing of cells for 3D cell culture.

A cell collection method of collecting cells includes a culture medium movement process, a detachment liquid supply process, and a mixing process, wherein in the culture medium movement process, a used culture medium in a culture container is moved to a collection container, wherein in the detachment liquid supply process after the culture medium movement process, a detachment liquid for detaching the cells from an inner surface of the culture container is supplied to the culture container, and wherein in the mixing process after the detachment liquid supply process, the detachment liquid and the used culture medium are mixed with each other.

A bioreactor includes a culture medium vessel housing culture medium. The culture medium vessel further includes a first side surface including a first transparent optical window; and a second side surface parallel to the first surface and including one or more sensor adapters to fix optical sensors. A cell retention vessel is disposed underneath and connected to the culture medium vessel, the cell retention vessel housing biological cells and having: a top surface that intersects a base of the culture medium vessel, and a second transparent optical window indented into the top surface at a first corner of the top surface. A semipermeable membrane is disposed at a bottom of the cell retention vessel, and a frame comprising a grid is disposed underneath the semipermeable membrane.

Described are devices for and methods of modulating a fluid sample. The devices (10, 40, 60, 80, 100, 130, 160, 220) include at least one sample-modulating component (20, 76, 78, 90, 110, 112, 116, 150, 152, 154, 162, 164, 182, 184, 186, 222, and 230) and, in some embodiments, two or more sample-modulating components. The sample-modulating components are each capable of performing a function selected from the following group: concentrating the sample to increase a concentration of a first constituent of the sample; diluting the sample to decrease a concentration of a second constituent in of the sample; desalinating the sample to decrease the total moles of salt in the sample volume or causing a temporary decrease in the osmolarity; adjusting pH of the sample to bring a pH of the sample into a predetermined range; absorbing one or more nonpolar substances to decrease a concentration of the nonpolar substances; and delivering one or more reagents to the sample to provide a desired concentration of the reagent in the sample.

Aspects of the present disclosure relate to a method including receiving, from a user interface on a display device of a computing apparatus, a dilution profile that includes a plurality of profile fields relating to a series of test instances for a plurality of culture devices. The method includes storing the dilution profile in a memory of a computing apparatus. The method includes receiving a request to form a worklist for reading the culture device. The worklist comprises a plurality of worklist fields that correspond to at least some of the plurality of profile fields in the dilution profile. The method includes determining that the dilution profile applies to the worklist and populating, responsive to the determination that the dilution profile applies and by the computing apparatus, at least some of the plurality of worklist fields with the plurality of profile fields in the dilution profile from the memory.