Abstract: A dried blood-spotting device includes a carrier card having a window therethrough along with a punchable glass fiber paper disposed in the window for a uniform absorption of a blood droplet sample into a homogeneous circular sport. The glass fiber paper is configured for enabling improved analysis for small molecules by liquid chromatography/mass spectrometry of punched specimens of the sample absorbed glass fiber paper.

Abstract: The present invention relates to the field of molecular diagnostics, and in particular to diagnostics based on a liquid crystal assay format. In particular, the present invention provided improved substrates and methods of using liquid crystal assays for quantitating the amount of an analyte in a sample. The present invention also provides materials and methods for detecting non-specific binding of an analyte to a substrate by using a liquid crystal assay format.

Abstract: The present invention is about a microfluidic chip for rapid detection of different target proteins and a method for using the same. The microfluidic chip utilizes antibody-conjugated magnetic beads to bind to the target proteins to form a magnetic complex, and then use the signal labeled-antibodies that can recognize said magnetic complex. Purifying said magnetic complex by the micro-magnetic field on biochip, and introducing said purified magnetic complex into the fluorescent detection area on the chip to detect the amount of the target protein in said purified complex immediately.

Abstract: Implantable devices comprise at least one or more targeting molecules that form a primary coating layer for selectively recruiting, isolating, activating, and/or eliminating any cells of interest, such as T cells, monocytes, and stem cells. The implantable devices can be utilized for selectively removing a particular subset of cells from bodily fluids of a patient. Various non-selective pharmaceutical agents and biological agents can be incorporated into the implantable devices so that cells of interest can be isolated for elimination or for activation/differentiation. Cell-type selectivity is conferred by the presence of cell-type-specific targeting molecules incorporated into the implantable device, preferably at the surface level to permit direct or indirect interaction between the cells of interest and targeting molecules of the implantable device. Related therapeutic methods for utilizing the implantable devices are also provided.

Abstract: The present invention provides devices and systems for use at the point of care. The methods devices of the invention are directed toward automatic detection of analytes in a bodily fluid. The components of the device are modular to allow for flexibility and robustness of use with the disclosed methods for a variety of medical applications.

Abstract: A method to detect local antibodies such as antigen-specific IgE via a brush biopsy specimen of a mucosal surface of a subject is disclosed. The method is easily performed in an office setting on both adult and pediatric patients. Also disclosed is a brush device specially designed for harvesting materials from a mucosal surface such as the medial surface of the inferior turbinate.

Abstract: The invention relates to an analysis device, wherein said system includes at least one metal guide at one end of which is provided at least one series of pits to which are directly coupled reagents specific to a substrate, said end being a perforating one, while the other end is intended for controlling said guide and is optionally associated with a suction system. The guide may be inserted into a protection system that is removable at the level of the functionalized end, up to the micro-analysis and/or micro-sampling site, and/or into a medical instrument having an inner channel in which said guide may slide. The present invention also relates to the use of such a device for making a tool for diagnosing cancer, an inflammation, an infection, a neurodegenerative disease or a graft rejection in a patient, preferably by transparietal delivery. The invention further relates to a method for the ex vivo analysis of a substrate using such a device.

Abstract: A method for determining a plurality of proteins for discriminating and positively identifying an individual based from a biological sample. The method may include profiling a biological sample from a plurality of individuals against a protein array including a plurality of proteins. The protein array may include proteins attached to a support in a preselected pattern such that locations of the proteins are known. The biological sample may be contacted with the protein array such that a portion of antibodies in the biological sample reacts with and binds to the proteins forming immune complexes. A statistical analysis method, such as discriminant analysis, may be performed to determine discriminating proteins for distinguishing individuals. Proteins of interest may be used to form a protein array. Such a protein array may be used, for example, to compare a forensic sample from an unknown source with a sample from a known source.

Abstract: The present invention relates to droplet-based surface modification and washing. According to one embodiment, a method of splitting a droplet is provided, the method including providing a droplet microactuator including a droplet including one or more beads and immobilizing at least one of the one or more beads. The method further includes conducting one or more droplet operations to divide the droplet to yield a set of droplets including a droplet including the one or more immobilized beads and a droplet substantially lacking the one or more immobilized beads.

Abstract: Activation of an enzyme in a bodily fluid is detected based on the amount of cleavage of a substrate for the enzyme. The substrate is tagged with two fluorescent dyes—a donor and an acceptor. The tagged substrate is presented to the bodily fluid. A device emits energy at a first wavelength into the bodily fluid, and detects energy at second and third wavelengths emitted by the dyes in response to the energy at the first wavelength. Prior to enzymatic cleavage of the substrate, the acceptor emits energy at the third wavelength in response to energy at the second wavelength received through fluorescent resonant energy transfer (FRET) from the donor. After enzymatic cleavage of the substrate, the donor emits energy at the second wavelength. The device can determine the concentration of activated enzyme within the bodily fluid based on the relative intensities of energy at the second and third wavelengths.

Abstract: A method of determining multimers of a macromolecule monomer in a sample containing the macromolecule comprises the steps of (i) determining the total concentration of macromolecule in the sample, (ii) determining by a biosensor-based detection method, especially mass-sensing, the active concentration of macromolecule in the sample, wherein physical characteristics of the macromolecule monomer are used, (iii) comparing the relationship of determined active macromolecule concentration to total macromolecule concentration for the sample with a corresponding relationship for an at least substantially multimer-free macromolecule-containing sample, and (iv) from a resulting difference determining the presence of multimers in the sample. The method may be used in the purification of macromolecules, such as proteins.

Abstract: The present invention relates to moving microorganisms to a surface, where they are grown in the presence and absence of antimicrobials, and by monitoring the growth of the microorganisms over time in the two conditions, their susceptibility to the antimicrobials can be determined. The microorganisms can be moved to the surface through electrophoresis, centrifugation or filtration. When the movement involves electrophoresis, the presence of oxidizing and reducing reagents lowers the voltage at which electrophoretic force can be generated and allows a broader range of means by which the target can be detected. Monitoring can comprise optical detection, and most conveniently includes the detection of individual microorganisms. The microorganisms can be stained in order to give information about their response to antimicrobials.

Abstract: The invention relates to a method for phenotyping blood and/or performing an irregular agglutinin test and/or for determination of compatibility of a donor and receiver, using an aqueous solution of ferrofluid, obtained from a mixture of polyoxoanions of Fe(III) and at least one metal M(II) of oxidation state II. The invention further relates to a kit for carrying out said procedure.

Abstract: A microfluidic device comprising at least one test channel, which test channel comprises an upper test channel section with an upstream end and a sampling region at its upstream end and at least one reference channel, which reference channel comprises an upper reference channel section with an upstream end and a sampling region at its upstream end. The test channel and the reference channel comprise a merging region downstream to the upper test channel section and a common downstream channel section. The merging region and the common downstream channel section are arranged such that a reference liquid flowing from the upper reference channel section into the merging region will block a test liquid flow in the upper test channel section when the test liquid flow has not yet reached the merging section. The microfluid device may be used for detecting change of flow properties e.g. due to agglomeration, agglutination or viscosity change in a liquid preferably selected from water, urine, blood, or blood plasma.

Abstract: A method and an automated apparatus for processing at least one biological sample arranged on a slide. At least one capillary staining module has a slide rack holder configured to detachably hold a slide rack configured to hold slides, and a capillary lid rack holder configured to detachably hold a capillary lid rack configured to hold capillary lids, wherein the slide rack can be removed independently of removing the capillary lid rack. A first fluid container has a first fluid. The apparatus being configured to automatically rotate the one or more slides, and to move the lids towards the slides to automatically form a capillary gap between each slide and each capillary lid, said capillary gap functioning as a capillary chamber; and to supply an amount of the first fluid to the slide.

Abstract: A separation module operates to fractionate or separate an analyte into fractions according to pI, i.e., pI bands, utilizing capillary isoelectric focusing (“CIEF”) within a first microchannel. The fractions are stacked to form plugs, the number of which is determined by a number of parallel second microchannels integrally connected to the first microchannel, into which the fractions are directed according to the buffer characteristics found in each of the individual microchannels. Within the microchannels the plugs are separated into proteins according to a different chemical property, i.e., “m/z,” utilizing capillary electrophoresis (“CE”).

Abstract: The present invention provides an array of polymers and methods of forming arrays of polymers by providing a substrate having a first layer including one or more dielectric coatings on a solid support and a second layer including a plurality of polymers disposed on the first layer. The invention also provides methods for forming an array of polymers on a substrate using light-directed synthesis by providing a substrate having a first layer including one or more dielectric coatings on a solid support, derivatizing the first layer by contacting the first layer with a silanation reagent, and a second layer disposed on said first layer wherein the second layer includes functional groups protected with a photolabile protecting group.

Abstract: The invention relates to a magnetic immunodiagnostic method for the demonstration of antibody-antigen complexes. One such method involves the research and/or identification of antibodies or antigens, preferably anti-antigen antibodies or antigens of a blood group, and comprises a suspension of magnetic particles coated with antigens that can be carried by cells such as erythrocytes. The invention also relates to a device and a kit for carrying out one such method.

Abstract: The present invention relates to systems and methods for detecting analyte molecules or particles in a fluid sample and in some cases, determining a measure of the concentration of the molecules or particles in the fluid sample. Methods of the present invention may comprise immobilizing a plurality of analyte molecules or particles to form a plurality of complexes, releasing at least a portion of some of the plurality of complexes, determining at least a portion of the plurality of complexes released, and determining a measure of the concentration of the analyte molecules or particles in a fluid sample.

Abstract: An analysis system comprises a sampling cartridge (11) comprising a housing (21, 22) having an inlet (23) for receiving a fluid sample, a sensor (26, 45), and a guide (40, 42) extending between the inlet and the sensor for guiding sample into contact with the sensor. The system also has an optical detection reader (13) for optically inspecting the sensor. The cartridge housing has an inspection window (34) and the reader (13) comprises a socket to receive the cartridge (11), and an optical system (1183, 1186) for inspecting the sensor through the window. The cartridge comprises parallel microfluidic channel (42) for flow of sample from the inlet into contact with the sensor. The sensor comprises discrete sensor pads (45) in at least one channel, with an antibody, an antigen, or molecular imprinted polymer. The channels are of microfluidic size, having a cross-sectional area in the range of about 0.3 mm2 to about 5 mm2. At least one channel comprises a reagent pad (43) upstream of the sensor (45).