A fluidic device may include a vertical fluid dispensing volume having a side outlet, a fluid channel connected to the vertical fluid dispensing volume below the side outlet and a fluid actuator asymmetrically located between ends of the fluid channel to form an inertial pump to vertically pump fluid within the channel to the side outlet.

Provided is a biochemical reaction substrate which can achieve higher test sensitivity and shorter testing time in an allergy test, which can also reduce a required amount of blood or the like needed as a specimen and decrease the number of test steps, thereby facilitating performance of the test, and which is to be used in an allergy test in which infection risk of the test staff is reduced. A biochemical reaction substrate, including: a reaction plate; an absorber; a reaction plate storing portion for storing the reaction plate; an absorber storing portion for storing the absorber; a storage container having a heated portion; and a cover assembled to the storage container so as to cover at least a part of the reaction plate and the absorber stored in the storage container, wherein the reaction plate includes a reaction area in which a specific binding substance that specifically reacts with a substance to be tested in a specimen is immobilized, and a flow passage that connects the absorber and the reaction area, and wherein the cover includes an injection hole for injecting a specimen or the like into the reaction plate.

A microfluidic device (10) comprising: a main body; at least one source reservoir and at least one collection reservoir (18,20); at least one fluid channel (12) for channelling a fluid comprising a compound from the at least one source reservoir (18) to the at least one collection reservoir (20); a plurality of chambers (13) for holding cells, wherein the plurality of chambers (13) are formed underneath and open to the fluid channel (12), wherein a fluid flow is generated through the at least one fluid channel (12) by a difference in hydrostatic pressure between fluid in the at least one source reservoir (18) and fluid the at least one collection reservoir (20) such that the fluid flow provides a compound concentration gradient across the plurality of chambers (13) and wherein the at least one collection reservoir (20) has an overflow opening (32) to substantially maintain a level of hydrostatic pressure in the at least one collection reservoir (20).

The subject matter of the present invention is a microfluidic process for treating and analysing a solution containing a biological material, comprising a step of introducing the solution into microchannels of a microfluidic circuit (1), a step of forming drops of this solution, under the effect of modifications of the surface tension of the solution, a step of moving the drops to one or more drop storage zones(s) (130), under the effect of modifications of the surface tension of the drops, a step of treating the drops and a step of analysing the drops.

A hand-held molecular diagnostic test device includes a housing, an amplification (or PCR) module, and a detection module. The amplification module is configured to receive an input sample, and defines a reaction volume. The amplification module includes a heater such that the amplification module can perform a polymerase chain reaction (PCR) on the input sample. The detection module is configured to receive an output from the amplification module and a reagent formulated to produce a signal that indicates a presence of a target amplicon within the input sample. The amplification module and the detection module are integrated within the housing.

A sample analysis substrate rotatable to transfer a liquid includes a substrate including a rotation shaft, a first holding chamber, a second holding chamber holding a first liquid discharged from the first holding chamber, a main chamber holding the first liquid discharged from the second holding chamber, a first flow path with the first holding chamber and the second holding chamber, and a second flow path having a third opening and a fourth opening respectively connected with the second holding chamber and the main chamber. The first holding chamber includes a portion farther from the rotation shaft than a position thereof connected with the first opening. The second holding chamber includes a portion farther from the rotation shaft than a position thereof connected with the second opening. In the second flow path, the third opening is closer to the rotation shaft than the fourth opening.

A method for analyzing biological samples is disclosed herein. In an embodiment, the method includes receiving a fluid sample into a cartridge device, which comprises: a fluidic chamber; at least one microfluidic channel in fluid communication with the fluidic chamber; and a venting port configured to apply a pneumatic force to the fluidic chamber; and inserting the cartridge device into a reader device to perform measurements, wherein the cartridge device is positioned in a vertical or tilted position such that at least a portion of the fluid sample inside the fluidic chamber is pulled by gravity in a direction away from the venting port or towards the bottom of the fluidic chamber.

Methods, systems and kits are described herein for detecting the results of an assay. In particular, the methods, systems and devices of the present disclosure rely on a difference between the diffusion rates of a reporter molecule and an analyte of interest in order to quantify an amount of analyte in a microfluidic device. The analyte may be a secreted product of a biological micro-object.

The present invention relates to a device (10; 30; 50) for analysing liquid samples comprising amplified nucleic acids, said device comprising: a sample pad (16); a first (18) and a second (19) sample analysis strip configured to analyse different aspects of the nucleic acid sample wherein said segments comprise nucleic acid sequences which are complementary to the predetermined sequences of target nucleic acids whose presence or absence is analysed; and a housing (11) enclosing said sample pad and at least two elongated sample analysis strips wherein the analysis result is detectable from the outside of the housing from the combination of aligned segments of said first and second analysis strips. The invention furthermore relates to a method for determining the presence or absence of a target nucleic acid, providing confirmatory results, in combination with a predetermined sequence in a sample from a subject using the device according to the invention.

Embodiments of the invention include instruments and methods useful in preparing and delivering graft material to a surgical site. Some embodiments may particularly be directed to forming a graft from a blood clot and accurately and effectively handling and delivering the graft to a surgical site. Graft material may include blood components such as clotted fibrin derived from a patient's or a donor's blood.