The present invention relates to a contact-less priming system for loading a solution in a microfluidic device comprising: at least one microfluidic device, a pressure chamber configured to enclose said at least one microfluidic device, a pressurization unit fluidly connected to the pressure chamber and at least one closing member. The present invention also relates to a contact-less priming method for loading a solution in a microfluidic device.

The invention generally relates to a microfluidic platforms or “chips” for testing and conducting experiments on the International Space Station (ISS). More specifically, microfluidic Brain-On-Chip, comprising neuronal and vascular endothelial cells, will be analyzed in both healthy and inflamed states to assess how the circumstances of space travel affect the human brain.

A container system for receiving a liquid sample has a receptacle including a substantially tubular portion for receiving a predetermined volume of the sample. The substantially tubular portion has a first open end and an at least partially openable second end; and a chamber at least partially surrounding the substantially tubular portion. The chamber has an at least partially open upper portion and a closed bottom.

An apparatus for washing an array plate includes one or more dispensers and one or more aspirators that are distinct from the one or more dispensers. A respective dispenser of the one or more dispensers is configured to dispense a first liquid on the array plate, and a respective aspirator of the one or more aspirators is configured to aspirate liquid on the array plate. A method for washing particles is also disclosed.

Described herein are sample loading systems for loading a sample into a processing and/or analysis system comprising: a sample reservoir for receiving a sample and a metering volume reservoir, the sample reservoir and a first side of the metering volume reservoir being interconnected through a first channel with a first flow resistance to allow filling of the metering volume reservoir with sample; a further reservoir for receiving a second fluid interconnected with the metering volume reservoir at the first side via a second channel having a smaller second flow resistance; a first valve for blocking flow of sample from the metering volume reservoir into the second channel; a second valve connected to a second side of the metering volume reservoir for controlling the blocking and flowing of sample; and a first timing circuitry for timing the opening of the second valve as a function of filling of the further reservoir.

Devices for detecting microorganism strains or target cellular analytes are provided. The device includes a filter holder, the filter holder comprising a tip portion; a nonwoven article disposed on the tip portion of the filter holder; and an adaptor attacked to the filter holder, the adaptor defining an aperture. Methods of detecting microorganisms and/or cellular analytes in a fluid sample using the devices are also provided. The method includes obtaining the device; placing a lumened or cannulated device in fluid communication with the device; and passing a fluid sample suspected of containing at least one microorganism strain or target cellular analyte from the lumened or cannulated device through the device and contacting the nonwoven article. The method further includes contacting the nonwoven article with at least one detection reagent and detecting the presence of the at least one microorganism strain or target cellular analyte concentrated by the nonwoven article. Kits and systems including the devices are also provided.

Devices and methods for determining activity of one or more coagulation factors in a blood sample are provided. The device may comprise an inlet port for deposition of a sample, a reaction compartment, a detection compartment, a control compartment, or any combination thereof. One or more compartments may be fluidically connected. One or more compartments may comprise plasma deficient of a coagulation factor, an ionic citrate source, an ionic calcium source, one or more coagulation contact phase activator reagents, a phospholipid, or a mixture, or any combination thereof.

Stabilized indicator compositions, and systems and methods using the same are described. In embodiments the stabilized indicator compositions include a solvent, an indicator, a stabilizer for the indicator, and optionally a buffer. In embodiments the indicator is or includes N, N-diethyl-p-phenylene diamine (DPD). Systems and methods utilizing the stabilized indicator composition to determine an amount of at least one constituent in a test sample (e.g., water) are also described. In embodiments, the systems and methods remove the stabilizer from the stabilized indicator composition to produce a fluid flow containing un stabilized indicator, which is then combined with a fluid from a sample source to form a test sample for analysis.

An analytical toilet comprising a bowl for receiving excreta from a user; a base supporting the bowl; a supply of flush water; and a plurality of receptacles, each providing mechanical attachment, a power supply, and a data connection to an analytical device, which analytical device is adapted to provide data useful to the user is disclosed.

Described herein are various inventions and embodiments thereof, directed to systems, devices, and methods for separating a sample. Embodiments of sample collection devices disclosed herein may maintain separation of different volumes of sample during collecting, handling, and accessing of the sample. A sample collection device, in some embodiments, may comprise an enclosure defining a first chamber, a second chamber, and a partition therebetween configured to separate the first chamber and the second chamber. An assembly coupled to the partition may be configured to transition between an open configuration and a closed configuration based on fluid and gas flow through the assembly.