A method of detecting a pathogen in a water sample. The method includes extracting DNA of the pathogen from a DNA solution derived from a water sample, eluting the DNA through a paper-based microfluidic device having flow channels and then performing LAMP reactions within a set of reaction chambers to obtain LAMP products that may be detected via an amplicon detection test.

A flow assay cartridge for housing and protecting a flow assay membrane or lateral flow test strip which can be vertically stacked and is adapted for high-throughput automated lateral flow assay testing and analysis. The flow assay cartridge comprises a base and lid for receiving the flow assay membrane, and top and bottom engagement features such that two or more flow assay cartridges can be releasably adjoined in a vertical orientation such that they can be easily handled by an automated assay apparatus.

Lateral flow devices, methods and kits for performing lateral flow assays are provided.

A microfluidic device comprises: a sensor provided in a sensing chamber; a liquid inlet and liquid outlet connecting to the sensor chamber for respectively passing liquid into and out of the sensing chamber and; a sample input port in fluid communication with the liquid inlet; a liquid collection channel downstream of the sensing chamber outlet; a flow path interruption between the liquid outlet and the liquid collection channel, preventing liquid from flowing into the liquid collection channel from upstream; a buffer liquid filling from the sample input port to the sensing chamber, and filling the sensing chamber and filing from the liquid outlet to the flow path interruption; an activation system operable to complete the flow path between the liquid outlet and the liquid collection channel such that the sensor remains unexposed to gas or a gas/liquid interface.

The invention provides systems for handling biofluids including the transport, capture, collection, storage, sensing, and/or evaluation of biofluids released by tissue. Systems of some aspects provide a versatile platform for characterization of a broad range of physical and/or chemical biofluid attributes in real time and over clinically relevant timeframes. Systems of some aspects provide for collection and/or analysis of biofluids from conformal, watertight tissue interfaces over time intervals allowing for quantitative temporal and/or volumetric characterization of biofluid release, such as release rates and release volumes.

The invention provides devices that improve tests for detecting specific cellular, viral, and molecular targets in clinical, industrial, or environmental samples. The invention permits efficient detection of individual microscopic targets at low magnification for highly sensitive testing. The invention does not require washing steps and thus allows sensitive and specific detection while simplifying manual operation and lowering costs and complexity in automated operation. In short, the invention provides devices that can deliver rapid, accurate, and quantitative, easy-to-use, and cost-effective tests.

A fluid analysis chip according to an embodiment can be produced by a simple process of adhering upper and lower plates using OCA film. The fluid analysis chip can be used with the inner height and shape precisely controlled to conform to a variety of requirements, and can enhance reliability due to greater adhesiveness than in the conventional chip.

A system for transferring a sample from a sample recovery or provision device to a microfluidic processing device, more particularly an analysis device, preferably in the form of a flow cell, with a sample carrier that removes the sample from the sample recovery or provision device and can be transported to the processing device. The sample carrier can be connected to the sample recovery or provision device and can be detached from sample recovery or provision device, with the sample being automatically removed. The sample carrier connected to the sample recovery or provision device is preferably a functional component of the sample recovery or provision device, more particularly the sample carrier closes a container space of the sample recovery or provision device for receiving sample material.

Diagnostic devices for quantitative or qualitative analysis of a sample fluid including an analyte include at least two portions made from a hydrophilic material. The planar portions are stacked on each other and each occupy a different and substantially parallel plane to form a three-dimensional structure. At least one of the planar portions includes a hydrophobic region formed by applying a low surface energy material that extends through a thickness of the substrate portion from a first major surface to a second major surface thereof. The hydrophilic regions in the overlying substantially parallel substrate portions can be aligned with each other such that a fluid is passively transported between adjacent hydrophilic regions to provide a sample flow path between adjacent substrate portions.

The present application discloses an antigenic detector, including: a pen holder and a pen cap. The pen holder includes: a test paper tube, a test paper assembled in the test paper tube, a test paper support, and a foam support installed on the front end of the test paper tube with a foam and a protective cover; the pen cap includes: a base, an aluminum foil assembled in the base, and an interior of the base forms a cavity into which a front end of the pen holder is inserted, and a reaction solution is sealed inside the cavity of the base by the aluminum foil; the protective cover is detachably installed on the front end of the test paper tube and covers the foam; the foam support is provided with a channel that communicates with an interior of the test paper tube.