The present invention is a urinal screen that includes a main body having an extended upper surface, a corresponding extended lower surface, and a marginal edge portion integral with an surrounding the upper surface and the lower surface; a plurality of spaced apart apertures formed to extent through the main body to provide fluid communication between the upper surface and the lower surface of the main body; and a two-sided spreading layer attached to the main body for accepting a urine sample on a upper side and passing the sample to a lower side, opposite and each side containing a reagent that can react with glucose in the urine sample, as it passes through the two-sided spreading layer, to cause a color change in the reagent.

This invention relates to a test strip for paper based assay, the test strip comprising a substrate addition zone for receiving a substrate and a test zone, the test zone comprising a capture agent, wherein the substrate addition zone is located upstream of the test zone. The invention 5 also relates to a paper-based enzyme assay comprising a test strip of the invention and methods of detecting the presence of an analyte in a sample using a test strip of the invention.

The assay device (10) comprises a micro flow path (76); a porous medium provided near the distal end portion (80) of the micro flow path (76); and a space (82) provided between the micro flow path (76) and the porous medium for controlling the flow rate of a fluid moving from the micro flow path (76) to the space (82). After a fluid moved along the micro flow path (76) based on a lateral flow is brought into contact with the porous medium beyond the space (82) and is absorbed to the porous medium, the fluid is divided by the space (82) so that the fluid stays in the micro flow path (76). With this structure, it is possible to perform solution exchange in the micro flow path without using an external device such as a pump.

A mobile device based multi-analyte testing analyzer for use in medical diagnostic monitoring and screening, and a method of manufacturing the same are disclosed. A reflectance based, colorimetric test strip reader for use with a mobile device having a jack plug receiving socket, said test strip reader adapted for removably receiving a test strip having a test strip longitudinal axis, comprising a housing; a jack plug operably coupled to and extending from said housing and adapted for operable coupling with said jack plug receiving socket; a test strip adapter including structure defining a test strip receiving channel; a light source oriented within said housing for directing light toward said test strip receiving channel to illuminate a test strip arranged within said test strip adapter; and a light sensor oriented within said housing to sense light reflected from a test strip carried by said test strip receiving channel.

Provided are fluorescent nanoparticles and their conjugates and methods of using the same for in vivo and in vitro diagnostics and other applications. In some embodiments, provided are fluorescent nanoparticles with high solid-state absolute quantum yield. In some embodiments, provided are methods of manufacturing such nanoparticles. Nanoparticles may comprise monomers, such as styrene, and fluorophores, such as AlEgen™ Bright Green.

A method uses an Dioleoylphosphatidylcholine (DOPC) surfactant based bio film that reacts with a material in a known manner, and a device that utilizes such a biofilm, to detect material of interest is provided. The principles of the present invention are particularly useful in detecting/measuring a material.

A detection method according to the present embodiment comprises the steps of (a) photographing a first reference color area indicated by a first reference color, a second reference color area indicated by a second reference color, and a detection region reacting with a target so as to change color, (b) converting a photography result into a single element, (c) extracting a single element gradation value from the converted photography result, (d) converting the extracted single element gradation value into a standard gradation value, and (e) detecting the concentration of the target from the standard gradation value.

A mobile device-based human pathogen rapid response diagnostic test system providing a partially disposable test kit and a system functioning within a mobile device software application. The diagnostic test system combines surfaces chemistry, thermochemical detection and automated histological digital imaging to reduce cradle-to-grave testing time relative to the state-of-the-art PCR methods.

The disclosed technology includes a planar device for performing multiple biochemical assays at the same time, or nearly the same time. Each assay may include a biosample including a biochemical, enzyme, DNA, and/or any other biochemical or biological sample. Each assay may include one or more tags including dyes and/or other chemicals/reagents whose optical characteristics change based on chemical characteristics of the biological sample being tested. Each assay may be optically pumped to cause one or more of luminescence, phosphorescence, or fluorescence of the assay that may be detected by one or more optical detectors. For example, an assay may include two tags and a biosample. Each tag may be pumped by different wavelengths of light and may produce different wavelengths of light that is filtered and detected by one or more detectors. The pump wavelengths may be different from one another and different from the produced wavelengths.

A coagulation test device for measuring clotting time and clot characteristics of a whole blood sample under different hemostatic conditions. Results of the test are used as an aid in management of patients with coagulopathy of unknown etiology in order to help the physician determine appropriate clinical action to arrest bleeding in a patient.