We describe assay modules (e.g., assay plates, cartridges, multi-well assay plates, reaction vessels, etc.), processes for their preparation, and method of their use for conducting assays. Reagents may be present in free form or supported on solid phases including the surfaces of compartments (e.g., chambers, channels, flow cells, wells, etc.) in the assay modules or the surface of colloids, beads, or other particulate supports. In particular, dry reagents can be incorporated into the compartments of these assay modules and reconstituted prior to their use in accordance with the assay methods. A desiccant material may be used to maintain and stabilize these reagents in a dry state.

A sample holder for collecting a liquid sample, such as blood. The holder can include a vessel, a conduit having a proximal end extending from the vessel and a distal end positioned in the vessel, and a cap configured to engage with the vessel and create pressure to move a liquid sample in the conduit to move from the proximal end to the distal end. A desiccant can be used to dry a blood sample during storage.

We describe assay modules (e.g., assay plates, cartridges, multi-well assay plates, reaction vessels, etc.), processes for their preparation, and method of their use for conducting assays. Reagents may be present in free form or supported on solid phases including the surfaces of compartments (e.g., chambers, channels, flow cells, wells, etc.) in the assay modules or the surface of colloids, beads, or other particulate supports. In particular, dry reagents can be incorporated into the compartments of these assay modules and reconstituted prior to their use in accordance with the assay methods. A desiccant material may be used to maintain and stabilize these reagents in a dry state.

Systems and methods for collecting blood and other liquid samples. A sample holder may include a cap and porous element arranged to receive a blood or other liquid sample. The porous element may be stored in a sealed container, e.g., immediately after blood sample collection, and the sample dried while sealed in the container.

A blood sampling device is provided having holder with a manipulating end and an absorbent probe on the opposing end. The probe is of hydrophilic polymer sized to directly absorb a predetermined volume of up to about 30 microliters of blood. Ribs on the holder position the probe within a compartment of a container to prevent contact with the container. The ribs also position the probe within extraction wells.

A system for preserving a blood sample and removing hematocrit includes a casing, the casing having a sample port and a lateral flow strip in the casing, the lateral flow strip receiving a sample through the sample port, and flowing the sample down a length of the lateral flow strip.

Provided herein are systems and methods of collecting a biological sample. Samples may be collected using a sample collection apparatus configured to prevent oxidation of the sample within the apparatus. The sample collection apparatus may comprise a component for absorbing oxygen within the device. The sample collection apparatus may be used to store samples for shipping. The sample collection apparatus may be used to store samples for later analysis. The sample collection apparatus may comprise a membrane having one or more test regions for detecting one or more target analytes within the sample.

A specimen-preserving implement including, a medium-containing section capable of accommodating a medium holding a specimen, a degradation inhibitor in liquid form that inhibits degradation of a sample to be tested contained in the specimen, an agent holder capable of being impregnated with the degradation inhibitor, and a containing section of a desiccant. The degradation inhibitor transfers to the medium by placing the medium in the medium-containing section in a state in which the agent holder is impregnated with the degradation inhibitor, and the desiccant is enabled to absorb humidity released from the degradation inhibitor without directly contacting the agent holder in a state in which the medium is accommodated in the medium-containing section.

A reagent cartridge includes a cartridge body configured to store a solid reagent, the cartridge body having a reagent well accessible through an access port. A seal plate is proximate the access port, the seal plate extends away from the access port to a seal plate edge remote from the access port. The reagent cartridge includes an isolation envelope surrounding the reagent well. The isolation envelope includes a seal membrane covering the access port, at least one isolation wall, and at least one isolation cavity interposed between the isolation wall and the well sidewall. One or more reagent cartridges are received in a cartridge magazine. The cartridge magazine includes at least one complementary profile seat configured to receive the one or more reagent cartridges having a corresponding cartridge profile.

A urine analysis cartridge includes a support and a plurality of moisture-tight chambers, each chamber being adapted to receive urine for analysis. The plurality of moisture-tight chambers is held in position by the support. At least a portion of the support, called the desiccant portion, is composed of a solid desiccant, capable of absorbing moisture from the air in contact with the desiccant portion, the desiccant portion being outside the moisture-tight chambers.