The present disclosure provides a test kit for simultaneously detecting a plurality of analytes, in which the test kit includes a lysis solution and a test strip. The lysis solution includes a salt, a surfactant, a stabilizer, and a buffer solution. The test strip includes a sample pad, a conjugation pad, a cellulose membrane, and a water-absorbing pad sequentially arranged on a support plate. The conjugation pad includes a conjugation pad solution and a plurality of antibody-conjugated microspheres, and the antibody-conjugated microspheres recognize plurality of analytes. The test kit of the present disclosure achieves an effect of simultaneously detecting more than or equal to four analytes even though the conjugation pad has a limited capacity of the antibody by preparing the lysis solution with appropriate ingredients and improving a formulation of the solution contained in the test strip.

Bead-based assays for measuring protein biomarkers of proteolytic activity in biological systems are disclosed. In an embodiment, an assay involves incubating a sample containing multiple fragments of a naturally occurring protein with a bead array and subsequently analyzing individual reactive sites of the bead array by mass spectrometry.

The methods include selectively reducing or expanding T cells according to the antigenic specificity of the T cells. Therefore, the present invention can be used to reduce or eliminate pathogenic T cells that recognize autoantigens, such as beta cell specific T cells. As such, the present invention can be used to prevent, treat or ameliorate autoimmune diseases such as IDDM. Furthermore, the present invention can be used to expand desirable T cells, such as anti-pathogenic T cells to prevent, treat and/or ameliorate autoimmune diseases.

Provided herein are multiplex assays for detecting antibodies indicative of presence and stage of syphilis infection in an individual. Individuals infected with syphilis produce antibodies directed to syphilis components and the lipid cellular debris associated with the infection. The present disclosure represents the first combination of these diverse antibody targets in a single assay.

Described herein are systems and methods for extending the dynamic range of assay methods and systems used for determining the concentration of analyte molecules or particles in a fluid sample. In some embodiments, a method comprises spatially segregating a plurality of analyte molecules in a fluid sample into a plurality of locations. At least a portion of the locations may be addressed to determine the percentage of said locations containing at least one analyte molecule. Based at least in part on the percentage, a measure of the concentration of analyte molecules in the fluid sample may be determined using an analog, intensity-based detection/analysis method/system and/or a digital detection/analysis method/system. In some cases, the assay may comprise the use of a plurality of capture objects.

The invention relate to systems and methods for sequencing polynucleotides, as well as detecting reactions and binding events involving other biological molecules. The systems and methods may employ chamber-free devices and nanosensors to detect or characterize such reactions in high-throughput. Because the system in many embodiments is reusable, the system can be subject to more sophisticated and improved engineering, as compared to single use devices.

Systems and methods are provided for sample processing. A device may be provided, capable of receiving the sample, and performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing multiple assays. The device may comprise one or more modules that may be capable of performing one or more of a sample preparation, sample assay, and detection step. The device may be capable of performing the steps using a small volume of sample.

The present invention relates to methods that utilize a combination of immunoassay and magnetic immunoassay techniques to detect an analyte within an extended range of specified concentrations. In particular, a method includes forming, in a biological sample, a first complex of signal antibodies and analyte, and a second complex of the first complex and capture antibodies immobilized on magnetic beads, and contacting a first immunosensor with the biological sample to form a third complex localized on or near a surface of the first immunosensor. The first immunosensor includes an immobilized layer of capture antibodies configured to bind to the analyte, and the third complex includes the first complex bound to the immobilized layer of capture antibodies. The method further includes contacting a magnetic field localized around a second immunosensor with the biological sample such that the second complex is localized on or near a surface of the second immunosensor.

The present invention describes a whole blood assay chip that enables separation of the cellular compartment from surrounding plasma, facilitating multiplexed measurement of otherwise difficult to detect soluble factors produced upon cellular stimulation. The invention is a microfluidic chip with an incubation chamber comprising an inlet, an outlet, and a fluidic barrier. Using this platform, the cellular compartment can be stimulated with various substances and levels of immunologic biomarkers could be measured. Through a proprietary immunologic algorithm described herein, this would allow for the diagnosis of an allergic response to foods, antibiotics, and/or other drugs. Additional applications of the invention besides allergy testing could include pregnancy testing, blood type, and medical applications requiring whole blood cellular stimulation readouts.

The invention provides high-sensitivity methods for detection and quantification of target analytes in liquid samples (e.g., biological or environmental samples). The methods can be multiplexed to allow simultaneous detection and quantification of multiple target analytes that are contained in the same sample. The invention also provides related compositions and kits.