Provided are an introduction step of using a particle capturing device (1) for introducing a fluid including target particles (CT) and non-target particles (CA)-(CC) from an inlet channel (18) into a chamber (20), an enrichment step of enriching the target particles (CT) and at least a part of the non-target particles (CA) in a filter (12) by discharging at least a part of the fluid through the first outlet channel (8), a separation step of separating the filtered out non-target particles (CA) from the target particles (CT) by a suction unit (30), and a storage step of storing the target particles (CT) in wells.

Systems, methods, and apparatus are disclosed for recovering one or more target cells from a fluid sample. A first chamber aligned with a first surface of a removable filter receives the fluid sample. The removable filter defines a plurality of pores configured to retain the one or more target cells on the first surface and/or in the plurality of pores, each pore of the plurality of pores having a first diameter smaller than a diameter of the one or more target cells in the first surface and a second diameter greater than the first diameter in a second surface of the removable filter. A second chamber comprises a hydrophilic microporous wick structure configured to contact the second surface of the removable filter and capillarize any non-target cells and fluid from the fluid sample, drawing them into the second chamber.

A single disposable cartridge for performing a process on a particle, such as particle sorting, encapsulates all fluid contact surfaces in the cartridge for use with microfluidic particle processing technology. The cartridge interfaces with an operating system for effecting particle processing. The encapsulation of the fluid contact surfaces insures, improves or promotes operator isolation and/or product isolation. The cartridge may employ any suitable technique for processing particles.

The present disclosure pertains to filtration methods comprising: passing a first fluid that comprises cells, cell debris and targeted product produced by the cells through a first filter thereby separating the first fluid into a first retentate comprising cells and a first permeate comprising targeted product and cell debris; combining resin beads having affinity for targeted product with the first permeate to form a second fluid containing resin beads with bound target product and cell debris; passing the second fluid through a second filter thereby separating the second fluid into a second retentate comprising resin beads with bound target product and a second permeate comprising cell debris; combining an elution buffer with the second retentate to form a third fluid that comprises a mixture of resin beads and unbound targeted product; and passing the third fluid through a third filter thereby separating resin beads from targeted product.

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).

A method for processing biological material containing stringy tissue in a container having a tissue collector disposed in a tissue retention volume on one side of an internal filter includes washing biological material contained in the tissue retention volume with wash liquid to the tissue retention volume and allowing the wash liquid and rotating the tissue collector disposed in the tissue retention volume relative to the container in a first direction of rotation about an axis of rotation to sweep the teeth positioned on the tissue collector through the biological material and to collect stringy material on the tissue collector.

Disclosed herein are photodegradable hydrogels and associated kits for selectively capturing and releasing cells. The hydrogels result from cross linking in the presence of a photoinitiator (1) a macromer having a polymeric backbone structure, a photo labile moiety, and a first linking moiety, and (2) a cell-binding moiety having a second linking moiety. These two components are cross-linked by a polymerization reaction of the linking moieties to form a photodegradable hydrogel incorporating the cell-binding moiety within the hydrogel. Also disclosed are methods of making the hydrogels, and methods of using the hydrogels for selectively capturing and releasing cells and for detecting cells in a fluid. Such methods can be used to detect the presence and quantity of certain rare cell types in a biological fluid.

A particle manipulation system uses a MEMS-based, microfabricated particle manipulation device which has an inlet channel, output channels, and a movable member formed on a substrate. The movable member moves parallel to the fabrication plane, as does fluid flowing in the inlet channel. The movable member separates a target particle from the rest of the particles, diverting it into an output channel. The target particles may be identified by a marker-free signal such as axial light loss to identify highly pigmented particles.

Embodiments relate to systems, chambers, and methods for processing particles by washing, concentrating, and/or treating the particles. Some embodiments provide for the processing of cells that may be in a liquid medium (e.g., a liquid in which the cells were grown) and are processed by being washed and concentrated for later use in research or other therapies.

The present invention provides a separator for microorganisms in cavitary contents. The separator for microorganisms in cavitary contents includes a raw material vessel, a stage filter, a liquid storage vessel, a closed separated material vessel, a separate loading unit, a deodorizer, pipelines for connecting all the units, etc.