Described herein are apparatus and methods for detecting substances of abuse or other analytes in liquids. For example, the apparatus and methods described herein can be used for real-time detection of analytes, such as substances of abuse. The methods comprise providing a detection area comprising a chromatographic membrane capable of receiving the liquid and allowing for migration of the liquid, the chromatographic membrane comprising an anti-analyte antibody-particle conjugate, an analyte-conjugate protein at a test line; exposing at least the first location of the apparatus to the liquid; and determining whether an interaction between the analyte-conjugate protein and the liquid occurs to detect the presence of the analyte. The chromatographic membrane may further comprise an anti-species antibody at a control line. Specific buffers are disclosed, and these buffers may be used in the preparation of the apparatus to overcome challenges associated with miniaturization and challenges associated with exposure to beverages.

Described herein are a wearable apparatus and methods for detecting the presence of a targeted substance in a liquid. For example, the wearable apparatus can be a fingernail that detects illicit drugs in a beverage. The wearable apparatus comprises a detection layer comprising an indicator that is configured to display a signal upon the detection of an interaction with the targeted substance. In some examples, the wearable apparatus can include a lateral flow assay.

A diagnostic device for analysing properties of an analyte in a sample liquid including: a distribution zone having at least two hydrophilic layers placed one on top of the other, wherein one layer is a top layer (12) and the other is a bottom layer (13); and a detection zone located under the distribution zone, the detection zone having a detection layer (14), wherein: the top layer has one or more openings (15) through which the sample liquid is introduced into the device; the bottom layer having one or more openings (16) connecting the distribution zone to the detection zone; the bottom layer also having a means by which the sample liquid is distributed from the top layer's opening to the detection layer through the bottom layer's opening; and a visual indication results on the detection layer when the sample liquid comes into contact with the detection layer.

An analyte detection device includes a fluid impermeable layer having a first thickness and at least one inlet port having a diameter, the at least one inlet port defining a fluid pathway through the first thickness. The device also includes a reagent-hosting layer having a second thickness and including at least one of a chemical reagent and a bio-chemical reagent. The reagent-hosting layer is configured to radially receive a sampling fluid via the fluid pathway, where the sampling fluid is configured to interact with the at least one of a chemical reagent and a bio-chemical reagent in the reagent-hosting layer to indicate a characteristic associated with an analyte in the sampling fluid.

A disposable indicator component for use in a system for measuring analyte concentration in a bodily fluid includes an indicator zone comprising at least one colorimetric analyte sensing element, and a coupler for coupling the indicator component to a component having at least one spectrophotometer contained within a housing.

A device for the microbiological detection and analysis of a controlled interface where known and controlled exposure of a sample of interest interacts with one of series of porous reactive zones in a manner that allows discernable activity to be detected. A favorable environment within the device allows agents emanating from the sample of interest to react with specific agents emanating from the porous reaction zone in a manner that is repeatable and precise.

Paper microfluidic devices for the detection of bodily fluids are provided. Such devices can be used, for example, for detection of bodily fluids from or at crime scenes, including blood, saliva, semen, urine, feces, vaginal fluids, and perspiration. Detection can be performed using colorimetric reagents that react when placed in contact with the fluid of interest. A single device can be used to test for multiple bodily fluids at the same time.

Described herein are apparatus and methods for detecting substances of abuse or other analytes in liquids. For example, the apparatus and methods described herein can be used for real-time detection of analytes, such as substances of abuse. The methods comprise providing a detection area comprising a chromatographic membrane capable of receiving the liquid and allowing for migration of the liquid, the chromatographic membrane comprising an anti-analyte antibody-particle conjugate, an analyte-conjugate protein at a test line; exposing at least the first location of the apparatus to the liquid; and determining whether an interaction between the analyte-conjugate protein and the liquid occurs to detect the presence of the analyte. The chromatographic membrane may further comprise an anti-species antibody at a control line. Specific buffers are disclosed, and these buffers may be used in the preparation of the apparatus to overcome challenges associated with miniaturization and challenges associated with exposure to beverages.

Described herein are apparatus and methods for detecting substances of abuse or other analytes in liquids. For example, the apparatus and methods described herein can be used for real-time detection of analytes, such as substances of abuse. The methods comprise providing a detection area comprising a chromatographic membrane capable of receiving the liquid and allowing for migration of the liquid, the chromatographic membrane comprising an anti-analyte antibody-particle conjugate, an analyte-conjugate protein at a test line; exposing at least the first location of the apparatus to the liquid; and determining whether an interaction between the analyte-conjugate protein and the liquid occurs to detect the presence of the analyte. The chromatographic membrane may further comprise an anti-species antibody at a control line. Specific buffers are disclosed, and these buffers may be used in the preparation of the apparatus to overcome challenges associated with miniaturization and challenges associated with exposure to beverages.

Described herein are a wearable apparatus and methods for detecting the presence of a targeted substance in a liquid. For example, the wearable apparatus can be a fingernail that detects illicit drugs in a beverage. The wearable apparatus comprises a detection layer comprising an indicator that is configured to display a signal upon the detection of an interaction with the targeted substance. In some examples, the wearable apparatus can include a lateral flow assay.