Abstract: A device and method for extending the useful life of a bulk liquid used in an automated clinical analyzer. Air from the atmosphere surrounding the automated clinical analyzer that displaces the bulk liquid consumed from a container is routed through a gas scrubber in order to remove or at least reduce the quantity of at least one contaminant present in that air. The gas scrubber is positioned between the bulk liquid in the container and the atmosphere surrounding the container. The gas scrubber contains a reagent that is capable of reacting with a contaminant in the atmosphere, whereby a required characteristic(s) of the bulk liquid does (do) not change excessively prior to the date that the bulk liquid is consumed. For example, if the contaminant is carbon dioxide, and the required characteristic of the bulk liquid is the level of pH of the bulk liquid, the reagent in the gas scrubber prevents the level of pH of the bulk liquid from changing excessively prior to the date that the bulk liquid is consumed.

Abstract: A filtering apparatus for filtering a fluid includes a filter element for filtering the fluid and an adhesive capillary structure for generating capillary forces. The adhesive capillary structure is attached to the filter element by using an adhesive property of the adhesive capillary structure. The adhesive capillary structure is preferentially made of a double-sided tape, which is adhesive on two sides. The filtering apparatus further includes a filtering location where the filter element is located, and a detection location where a property of the fluid is detectable. The capillary structure is formed such that the filtered fluid is guided from the filtering location to the detection location.

Abstract: Devices and methods for the detection of target molecules are disclosed. Devices and methods for detecting food-borne target molecules are also disclosed.

Abstract: A method and device are disclosed for continuously detecting, classifying and identifying toxic particles, aerosols and/or vapor in an air sample, in near real time by directing an air sample containing an optional target analyte, in the form of particles, aerosols and/or vapors, enzyme(s), and enzyme substrate(s), to a surface of a collection matrix for forming a biocatalytic reaction product of a plurality of freely mobile optical reporters, and by using a light source with optical reader to interpret the signal from the optical reporter, enabling the detection, classification and identification of toxic particles, aerosols and/or vapor in the air sample.

Abstract: The present invention includes methods and devices for preventing interfering substances from affecting the accuracy of a lateral flow immunoassay. In preferred embodiments, a test strip includes a capturing zone that includes at least one mobile capturing reagent that separates at least one interfering substance from the analyte. The capturing zone is preferably located upstream of the sample application zone. In some embodiments, the reagent/conjugate zone is also located upstream of the sample application zone. The capturing zone may be located upstream, downstream, or overlapping with the reagent/conjugate zone in these embodiments. In other preferred embodiments, one or more mobile capturing reagents are included in the elution medium/running buffer. In yet other embodiments, the capturing reagent is incorporated into a sample collection device of a sample collection system, preferably separate from the chromatographic test strip. A lysis zone is also included in some preferred embodiments.

Abstract: An apparatus for using sensors having test strip with sheaths surrounding sensitive area configured to detect certain substance in a liquid test specimen includes a carrier having spaced-apart openings to frictionally hold the sensors, a loading portion to insert the sensors through the openings and to displace the sheaths thereby exposing predetermined lengths of the sensitive areas of the sensors, a testing portion including a container for containing a test specimen as only specified lengths of the predetermined lengths of the sensitive areas of the sensors are submerged in the test specimen, and an extracting portion structured and configured to receive the carrier with the plurality of said sensors inserted therethrough, the extracting portion having a comb-like structure for displacing the sheaths to return them to their stowed configurations and to eject the sensors from the carrier.

Abstract: The invention provides a method and article for storing genetic material or analytes from a biological sample by contacting said biological sample with a cellulose substrate comprising structural units of Formula I wherein X and Y are independently N—O-L-A or O, with the proviso that when Y is O, then X is N—O-L-A, and when X is O, then Y is N—O-L-A; L is a direct bond, an aliphatic radical, an aromatic radical, a cycloaliphatic radical, or a combination thereof; and A=COOH, SO3H, or a combination thereof. The invention also relates to a cellulose substrate comprising the structural units of Formula I, and a method of manufacturing the same.

Abstract: Viscosity of a test body solution spotted onto a test piece is detected. The test piece has an insoluble support, through which the test body solution is developed, and a test region formed on the insoluble support, the test region reacting with an analyte in the test body solution and undergoing coloration. A washing liquid is fed to the test region and its neighboring regions at the time between a stage, at which the test body solution has been developed through the test region, and a stage, at which a liquid for amplifying the coloration state of the test region is fed to the test piece, such that the quantity of the washing liquid fed to the test region and its neighboring regions is set to be large as the detected viscosity becomes high.

Abstract: A biochemical assay is provided comprising a substrate being capable of binding at least a target analyte and eventually other constituents contained in a biological sample, a test zone on the substrate for sample application, a non-immobilized conjugate reagent provided in the test zone for labeling the analyte, the conjugate reagent being capable of specific binding to the analyte but remaining unbound to the substrate, and a flow path for transporting a washing liquid through the test zone and washing an excess of unbound conjugate reagent away from the test zone. The test zone is also a detection area for detecting the labeled analyte.

Abstract: The present invention includes but is not limited to a specimen collection device that includes a chamber capable of collecting a specimen, a specimen passage slot, a reservoir, a reservoir seal, and a test device. A sample or specimen added to the chamber flows through the specimen passage slot into the reservoir. Flow into the reservoir may be limited by the reservoir seal. The test device positioned within the reservoir detects the presence or concentration of an analyte within the sample or specimen.

Abstract: An optic light guide test sensor comprises a light guide, a reagent-coated membrane, and a mesh layer. The reagent-coated membrane and the mesh layer are attached to the light guide at an output end of the light guide. The light guide test sensor is adapted to be used to test the level of an analyte in a biological fluid sample when used with a readhead. A method of manufacturing the light guide test sensor involves providing a plurality of light guides, providing a strip of reagent-coated membrane, and providing a strip of mesh layer. The reagent-coated membrane and mesh layer are attached to the light guides by ultrasonic welding. The reagent-coated membrane and mesh layer may also be attached to the light guides by adhesive.

Abstract: A probe array substrate suitable for forming a probe array that has high packing density, that can hold sufficient amounts of probe molecules, and that has little variation in the amounts of probe molecules. A plurality of arrayed probe-holding portions are defined by recesses, and isolating grooves are formed between the adjacent probe-holding portions to prevent probe solutions introduced into the probe-holding portions from spreading to adjacent probe-holding portions. Inner surfaces of the probe-holding portions are made hydrophilic, whereas inner surfaces of the isolating grooves are made hydrophobic. Liquid-introducing protrusions are formed in the probe-holding portions.

Abstract: The disclosure provides low cost, portable three-dimensional devices for performing multiplexed assays. The devices comprise at least two substantially planar layers disposed in parallel planes, wherein one of the layers is movable relative to each other parallel to the planes to permit the establishment of fluid flow communication serially between the two layers.

Abstract: A device for determining the presence and/or quantity of one or more analytes in a sample of human body fluid has a container for receiving a sample of body fluid, with an interior that is delimited by a base and by a circumferential surface. It further comprises at least one test strip and a holding element for receiving and holding the one or more test strips. The holding element is designed such that it has a shape corresponding and adapted to the peripheral circumferential surface of the container. The device further comprises an elongate sampling element having an absorbent sampler that takes up the sample of body fluid and by means of which the sample of body fluid is transferred into the container. The sampling element can include an indicator strip for determining whether the amount of liquid sample sufficient for carrying out an assay.

Abstract: Disclosed are compositions and methods useful for the rapid and facile simultaneous detection of malodorous bacterial metabolites in samples of expired breath and other fluids. The invention enables estimation, by simple visual inspection and comparison against standards, of the concentration of polyamines and volatile sulfur compounds in the micromolar to millimolar range.

Abstract: The present invention relates to microfluidic devices and methods for manipulating and analyzing fluid samples. The disclosed microfluidic devices utilize a plurality of microfluidic channels, inlets, valves, filter, pumps, liquid barriers and other elements arranged in various configurations to manipulate the flow of a fluid sample in order to prepare such sample for analysis.

Abstract: Methods and devices for rapid lateral flow immunoassays to detect specific antibodies within a liquid sample while also validating the adequacy of the liquid sample for the presence of immunoglobulin and the integrity and immunoreactivity of the test reagents that detect the antibodies of interest, without requiring instrumentation. The methods and devices provide for delivery of a diluted liquid sample to a single location that simultaneously directs the liquid flow along two or more separate flow paths, one that serves as a positive control to confirm that all critical reagents of the test are immunoreactive, and that the sample being tested is adequate, and the other to detect specific antibodies if present.

Abstract: Systems and methods are disclosed to automatically detect the presence of a substance on a test swipe by capturing a background image of the test swipe; applying one or more test chemicals to a test swipe; adjusting the temperature of the test swipe to a predetermined temperature range; capturing an in-situ image of the test swipe after the application of chemical at the predetermined temperature range; subtracting the background image from the in-situ image; generating a difference value from the two images; and searching a known database to identify the substance.

Abstract: The present invention is directed immunoassay cuvettes that comprise diffusely bound and non-diffusely bound reagents for carrying out an immunoassay. The reaction and detection are carried out in the immunoassay cuvette. The immunoassay cuvette comprises a transparent front wall, a back wall, side walls, a bottom, and a top opening. The back wall of the cuvette has a substantially planar surface made of a non-porous material and comprises a capture zone having reagents non-diffusedly bound and a signal reagent zone having reagents diffusedly bound.

Abstract: A delivery apparatus for selectively delivering one or more liquid reagents into a reaction or test chamber (2), especially of an assay apparatus, the apparatus comprising: one or more respective storage chambers (5,6) for containing the one or more liquid reagents and arranged generally above the reaction or test chamber (2); and a plunger element (4) arranged and operable for insertion into the mouth of a selected storage chamber so as to displace a selected reagent from therewithin into the reaction or test chamber (2) generally therebelow by gravitational liquid overflow from the mouth of the chamber. The apparatus may conveniently be provided as a discrete delivery unit, with the storage chambers (5,6) prefilled with the selected reagents.

Abstract: An apparatus comprising a plurality of closed-cells on a substrate surface. Each of the closed-cells comprise one or more internal walls that divide an interior of each of the closed-cells into a single first zone and a plurality of second zones. The first zone occupies a larger area of the closed-cell than any one of said second zones and the first and second zones are interconnected to form a common volume.

Abstract: An optical measurement apparatus is provided for conducting a test by efficiently reading color development of a reagent after reaction by optical measurement. To the above end, an optical measurement apparatus is provided which is to be used with at least one test instrument mounted to the apparatus. The test instrument includes a carrier provided with at least one reagent retaining portion which retains a reagent, and a sample is applied to the carrier. The optical measurement apparatus includes a reader for reading color development of the reagent retaining portion, and a controller for performing driving control of the reader and determination. The controller performs the determination by utilizing data obtained by a reading operation P to read the color development of the reagent performed after the lapse of a reaction completion period Tr1-Tr6 from the mounting of the test instrument, and the reaction completion period depends on the reagent.

Abstract: An apparatus and a related method for performing particle agglutination reactions in at least one disposable probe tip are disclosed. The at least one probe tip includes a sample cavity for sample acquisition, at least one flanking cavity for the capture of particles by centrifugation or other means, a transition zone for the mixing of the sample with reagents for agglutination and a detection zone for the optical detection of particle agglutination. A mechanism may be attached to the probe tip for the controlled movement of fluids through the internal volume of the probe tip. The probe tip is particularly useful for the automation of high-throughput agglutination-type assays.

Abstract: The invention relates to an analytical test element for analysis of a liquid sample. The analytical test element may contain a channel which is suitable for capillary transport of the liquid sample and which is provided with an inlet opening for the liquid sample and with an air outlet opening. At least one test field may be arranged in the channel, spaced apart from the inlet opening. The test element comprises a sample application site which is closed with a seal and which is designed in such a way that, when the seal is opened, the sample application site and the inlet opening of the channel are simultaneously open to the outside environment of the test element. The test element can then receive the liquid sample inside the channel via the sample application site and inlet opening, for analysis in the test field. The invention also relates to a test element magazine and to a system for analysis of liquid samples with at least one test element.

Abstract: A liquid applicator for applying a liquid sample to a liquid receiving surface is disclosed. The liquid applicator comprises a bibulous line to hold a first predetermined volume of liquid for application to a liquid receiving surface. A second predetermined volume less than or equal to the first predetermined volume is applied to the liquid receiving surface in a substantially uniform and consistent pattern. Systems and methods for using embodiments of the liquid applicators are also disclosed.

Abstract: Specialized microfluidic networks are utilized to deposit substances on sensor surfaces. In particular, a flow-based microfluidic printhead is used as an interface to deliver multiple analytes to a sensor for simultaneous analysis. Furthermore, internal referencing is incorporated into sensor regions for improved sensitivity.

Abstract: A component measuring apparatus is provided with a case having a cylindrical case main body and a cover arranged to cover the base end opening section of the case main body; a chip mounting section for mounting a chip; a light measuring section for detecting a prescribed component; a printed board whereupon a control section having a function of controlling the operation of the light measuring section is arranged; a liquid crystal display device; a battery arranging section for arranging a battery provided on the cover; an O-ring arranged between the case main body and the light measuring section on the leading end section of the case main body; and an O-ring arranged between the case main body and the cover on the base end opening section of the case main body. Sealing of inside the case is ensured by the O-ring.

Abstract: A vial and particles for distributing reagent bound particles in a fluid, a kit, and methods for distributing particles in a fluid.

Abstract: Devices and methods for the detection of antigens are disclosed. Devices and methods for detecting food-borne pathogens are disclosed.

Abstract: It is intended to provide a target substance detection element wherein a target substance capturing body for capturing target substances is immobilized with good orientation in a desired region on the surface of the target substance detection element, a method for producing the target substance detection element, and a detection method using the target substance detection element.

Abstract: A tamper-proof, point-of-collection specimen assay apparatus including three selectively connectable and sealable chambers, including a first chamber for receiving a specimen, a second chamber housing a specimen testing device and a specimen transfer site positioned between the first chamber and the second chamber for selectively depositing a portion of the specimen from the first chamber into the second chamber and a third chamber having inlets for depositing another portion of the specimen from the first chamber into the third chamber.

Abstract: A device for determining the presence and/or quantity of one or more analytes in a sample of human body fluid has a container for receiving a sample of body fluid, with an interior that is delimited by a base and by a circumferential surface. It further comprises at least one test strip and a holding element for receiving and holding the one or more test strips. The holding element is designed such that it has a shape corresponding and adapted to the peripheral circumferential surface of the container. The device further comprises an elongate sampling element having an absorbent sampler that takes up the sample of body fluid and by means of which the sample of body fluid is transferred into the container. Further, the base of the container has a central elevation via which the sample of body fluid can be conveyed from the sampler, by compression thereof on the elevation, to the at least one test strip.

Abstract: An analyte testing device is provided for use with a mobile processing device having a camera with a lens, a processor for processing an image captured by the lens. The analyte testing device comprises a casing and a test strip positioner. The test strip positioner positions an analyte containing test strip adjacent to the camera lens to permit the camera to capture an image of the analyte containing test strip. A light source is disposed within the casing. The light source is positioned within the casing to illuminate the analyte containing test strip to facilitate the capture of the image of the test strip. Software is contained within the mobile processing device for performing a quantitative analysis of at least one analyte from the captured image, and providing an output of the results of the quantitative analysis.

Abstract: The present invention relates to a technique for moving a mobile component such as a sample and a reagent, in an analyzing article. A method of analyzing a sample according to the present invention includes a first movement step of moving a mobile component from a fluid entrance port (61) to a first goal (511) in a passage (51), and a second movement step of moving the mobile component from the first goal (511) to a second goal (512) in the passage (51), in an analyzing article (Y1). The analyzing article (Y1) further includes a branch passage which branches from the first goal (511), and a first opening for releasing gas from within the branch passage. The first movement step is carried out by establishing communication between inside and outside of the branch passage via the first opening.

Abstract: A method and apparatus for use in a flow through assay process is disclosed. The method is characterised by a “pre-incubation step” in which the sample which is to be analyzed (typically for the presence of a particular protein), and a detection analyte (typically one or more antibodies bound to colloidal gold or a fluorescent tag) which is known to bind to the particular protein may bind together for a desired period of time. This pre-incubation step occurs before the mixture of sample and detection analyte come into contact with a capture analyte bound to a membrane. The provision of the pre-incubation step has the effect of both improving the sensitivity of the assay and reducing the volume of sample required for an assay. An apparatus for carrying out the method is disclosed defining a pre-incubation chamber for receiving the sample and detection analyte having a base defined by a membrane and a second membrane to which a capture analyte is bound.

Abstract: An apparatus and a related method for performing particle agglutination reactions in at least one disposable probe tip are disclosed. The at least one probe tip includes a sample cavity for sample acquisition, at least one flanking cavity for the capture of particles by centrifugation or other means, a transition zone for the mixing of the sample with reagents for agglutination and a detection zone for the optical detection of particle agglutination. A mechanism may be attached to the probe tip for the controlled movement of fluids through the internal volume of the probe tip. The probe tip is particularly useful for the automation of high-throughput agglutination-type assays.

Abstract: Systems for filling sample array by droplet dragging are provided. One aspect of the invention provides an array filling system for filling a platen having a platen surface and an array of receptacles, the receptacles having an internal surface and the receptacles separated by the platen surface, the system comprising: a liquid transfer device capable of holding liquid; and a controller configured to position the liquid transfer device in proximity to the platen surface and to move the liquid transfer device across the surface and over the receptacles to be filled so as to cause sequential communication of liquid in the liquid transfer device with the interior surface of each receptacle.

Abstract: An oral fluid collection and transfer device comprises a collection device (10) and a test cartridge (100). The collection device includes a frame or chassis (14), and an absorbing pad (12) for absorbing oral fluid and which is secured around part of the frame with part of the frame protruding from the pad. A collapsible cover (16) covers the absorbing means and has apertures (68) for the ingress of oral fluid into contact with the absorbing pad. A cap (18) covers the part of the frame protruding from the absorbing pad. The cap and the cover latch together to surround the frame and the absorbing pad. The device also includes a fluid adequacy indicator (20) in the form of an electrical circuit with an LED (66) which is completed when the absorbing means has absorbed a predetermined volume of oral fluid.

Abstract: Devices and methods for the detection of antigens are disclosed. Devices and methods for detecting food-borne pathogens are disclosed.

Abstract: The present invention provides a micro mechanical system for performing assays for determining the presence of one or more selected analytes in a sample. The device comprises of a base and a disposable strip with at least one reaction well and at least one moveable member capable of moving fluids and parts through the fluids in a defined reaction well. Reagents in the reaction chambers and or the moveable members, react with the sample to yield a physically detectable change. The moveable parts are capable of executing motions that either mix, move reaction components, exchange or systematically deliver reagents to targets in the cartridge. Sensors in the base are configured to detect and or quantify the presence of a sample in the reaction well and of analytes in the sample. The signal is converted to an output on a visual display window on the external part of the base.

Abstract: A device for collecting, testing and storing fluids includes a container and a removable cap. Body fluids, such as urine, are collected in the container. The cap defines a test strip holder that receives one or more drug test strips and an adulteration strip. An opening defined through a bottom of the cap provides fluid communication between the container and the cap. When tilted, fluid from the container enters the cap through the hole. A variety of plugs may be employed to block the opening and thereby prevent fluid communication between the container and the cap after fluid has entered the cap. The remaining uncontaminated and untested body fluid is stored in the container and thus made available for further confirmation testing. Associated methods for collecting, testing and storing fluids with a single device are also provided. A method of manufacturing the foregoing test device is also provided.

Abstract: An absorption spectrometric analysis microchip with a chamber for holding a sample, a chamber for holding a reagent which reacts with this sample, a mixing chamber for mixing the reagent with the sample with the formation of a mixture and a sensing part with a sensing chamber for holding the mixture with a light incidence surface for the entry of light into the sensing chamber and a light exit surface for emergence of light from the sensing chamber. At least one of the light incidence surface and light exit surface is located in a recess area of the sensing part.

Abstract: A microfluidic device for preparing a mixture, has a mixer. The mixer includes a plurality of chambers, each chamber having a volume of at most 1 microliter, a first plurality of channels, each channel fluidly connecting 2 chambers, a plurality of chamber valves, each chamber valve controlling fluid flow out of one of the plurality of chambers, and a first plurality of channel valves, each channel valve controlling fluid flow through one of the first plurality of channels.

Abstract: Provided is sampling and testing device for the detection of specific molds, allergens, viruses, bacteria, fungi, and other protein containing substances. Embodiments of the device include a sampling member slideably engaged with a base that contains a lateral flow strip adapted to detect specific analytes of interest. The sampling member defines a solvent reservoir that stores an elution solvent in a fluid-tight manner before the device is used to sample and test environmental surfaces. During slideable withdrawal of the sampling member from the base, the elution solvent stored in the reservoir is automatically released to a wick assembly of the sampling member. The wick assembly includes a wick adapted to receive, distribute, and retain the elution solvent. After a user samples an environmental surface for an analyte of interest with the elution solvent wetted wick, the sampling member is returned to the base where the wick contacts the lateral flow strip contained in the base.

Abstract: The present invention relates to an analytical tool (1) comprising a substrate (10), a capillary (13) which is formed on the substrate (10) and into which a sample liquid is to be loaded by movement of the sample liquid in the capillary. The substrate (10) is provided with a liquid movement preventer for preventing the sample liquid loaded into the capillary (13) from moving further. Preferably, the liquid movement preventer includes a stepped portion (18B) projecting from the substrate or a recess provided at the substrate.

Abstract: Methods for determining chlorine demand in water are provided. One method comprises (a) providing a test water sample containing at least one contaminant and a source of chlorine and a source of bromide; (b) heating the test water sample for a suitable time and temperature sufficient to substantially oxidize the at least one contaminant in the test water sample; and (c) determining the content of residual chlorine present in the test water sample.

Abstract: The present invention provides a micro mechanical system for performing assays for determining the presence of one or more selected analytes in a sample. The device comprises of a base and a disposable strip with at least one reaction well and at least one moveable member capable of moving fluids and parts through the fluids in a defined reaction well. Reagents in the reaction chambers and or the moveable members, react with the sample to yield a physically detectable change. The moveable parts are capable of executing motions that either mix, move reaction components, exchange or systematically deliver reagents to targets in the cartridge. Sensors in the base are configured to detect and or quantify the presence of a sample in the reaction well and of analytes in the sample. The signal is converted to an output on a visual display window on the external part of the base.

Abstract: A specimen cup system for sample testing includes a cup defining sealable first and second regions. A receptacle is formed at a bottom of the first region and extends vertically therein. The receptacle has a first opening defined at the bottom of the first region, a second opening in a radial wall of the receptacle for fluid communication with the first region, and a third opening in the radial wall of the receptacle for fluid communication with the second region. A base having a hollow post is inserted in the first opening of the receptacle. The hollow post has a radial opening formed therein that, when aligned with the second opening, defines a pre-test condition. The hollow post forms a fluid tight seal with the receptacle about the radial opening. The base is coupled to the bottom of the cup in a rotatable fashion such that the hollow post can be rotated to align the radial opening thereof with the third opening in the receptacle to define a test condition.

Abstract: The present invention relates to using a marker in a functional fluid, which survives the use of the functional fluid in an application, with a reagent solution to identify the functional fluid rapidly either before, during or after the functional fluid's use and which is a suitable method for identifying a functional fluid in the field, and which may employ the use of test wipe, or medium, that contains the reagent solution.

Abstract: An electrochemical biosensor test strip with four new features. The test strip includes an indentation for tactile feel as to the location of the strips sample application port. The sample application port leads to a capillary test chamber, which includes a test reagent. The wet reagent includes from about 0.2% by weight to about 2% by weight polyethylene oxide from about 100 kilodaltons to about 900 kilodaltons mean molecular weight, which makes the dried reagent more hydrophilic and sturdier to strip processing steps, such as mechanical punching, and to mechanical manipulation by the test strip user. The roof of the capillary test chamber includes a transparent or translucent window which operates as a “fill to here” line, thereby identifying when enough test sample (a liquid sample, such as blood) has been added to the test chamber to accurately perform a test. The test strip may further include a notch located at the sample application port. The notch reduces a phenomenon called “dose hesitation”.