A urine sample testing apparatus may include a urine qualitative measuring section configured to acquire a measurement result for each of a plurality of urine qualitative measurement items and a urine sediment measuring section configured to acquire a measurement result for each of a plurality of urine sediment measurement items. The apparatus may also include an operation part that can specify a combination of one of the plurality of urine qualitative measurement items and one of the plurality of urine sediment measurement items. An information processing unit may also be included.

Diagnostic systems, methods, and devices employing low-cost handheld components are disclosed herein. A diagnostic system can include a diagnostic device that is configured to perform one or more assays on a fluid sample, such as a whole blood sample, in one or more microfluidic channels or chambers. The diagnostic device can move the fluid sample into or through the one or more microfluidic channels or chambers without using any electrical power, for example, using manual actuation to generate a positive or negative pressure within the diagnostic device. The diagnostic device can have a connector for interfacing with a separate handheld unit that can provide power and data processing. For example, the separate handheld unit can be a smartphone or PDA, and the connector can interface with an existing input/output port of the unit to draw power and/or transmit data.

Provided are a kit for measuring a titer of a human antibody, a humanized antibody, or a human Fc-fusion protein in human plasma or serum, and a method for measuring a titer of a human Fc-containing protein in human plasma or serum using the same, and more specifically, a kit for measuring a titer of human Fc-containing protein in human plasma or serum, the kit including a diluent for sample, a diluent for conjugate, and a cleansing solution and being used in analysis through an indirect enzyme-linked immunosorbent assay (indirect ELISA), and a method for measuring a titer of human Fc-containing protein in human plasma or serum using the same.

Provided are a polypeptide and nucleic acid for encoding the polypeptide, a nucleic-acid construct, an expression vector, and a host cell containing the nucleic acid, an antigen-presenting cell presenting the polypeptide on the surface of the cell, and immune effector cell thereof, a pharmaceutical composition containing the polypeptide, a vaccine containing the nucleic acid, the nucleic acid construct, the expression vector, the host cell, the antigen-presenting cell, and the immune effector cell, and an antibody recognizing the polypeptide. Also provided is a therapeutic method using the polypeptide, the nucleic acid, the pharmaceutical composition, the vaccine, and the antibody. Also provided are a diagnosis method and diagnosis apparatus for detecting the described polypeptide. Also provided is an application of the polypeptide in preparing a vaccine, a tumor diagnosis kit, or a pharmaceutical composition, and an application of the polypeptide or the nucleic acid as a test target in tumor diagnosis.

A method of quantitatively determining the concentration of at least one analyte in a sample. The method may involve adding a portion of the sample to a first analyte assay formulation and to an analyte assay reference formulation to generate a first analyte sample and analyte reference sample, and determining the concentration of the at least one analyte in the sample. The method may additionally or alternatively involve adding a portion of the sample to a second analyte assay formulation, and determining the concentration of the at least one analyte in the sample, or both. The method may be associated with various formulations, kits of parts, systems and computer implemented methods.

The present invention relates to a determination method and system thereof. The method includes: providing or receiving a urine sample; distributing the urine sample into a first urine sample and a second urine sample; measuring a total protein concentration of the first urine sample; measuring a creatinine concentration and an albumin concentration of the second urine sample; and calculating a urine protein to creatinine ratio (UPCR) and a urine albumin to creatinine ratio (UACR), in which the UPCR is defined as a ratio of the total protein concentration to the creatinine concentration, and the UACR is defined as a ratio of the albumin concentration to the creatinine concentration.

A protein assay method, including: 1) dissolving 4-hydroxybenzenesulfonic acid in an ethanol, methanol, or acetonitrile aqueous solution to prepare a hydrolysis reagent, adding a protein sample and the hydrolysis reagent to a hydrolysis tube, and uniformly mixing the protein sample and the hydrolysis reagent, charging argon or nitrogen into the hydrolysis tube to remove dissolved oxygen, sealing and drying the hydrolysis tube, and hydrolyzing the protein sample; 2) cooling the hydrolysis tube to room temperature, filtering and adding a resulting hydrolysate to a volumetric flask, washing the hydrolysis tube and a filter paper, collecting and adding a resulting washing solution to the volumetric flask to a constant volume; 3) drawing a hydrolysate solution from the volumetric flask, completely drying the hydrolysate solution to yield a solid product; and 4) diluting the solid product using a diluent, and analyzing amino acids of the solid product.

Provided is a sample analysis method, including separating albumin and ?-globulin from a sample containing albumin and ?-globulin, in an alkaline solution by capillary electrophoresis, in which the sample contains a non-surfactant-type sulfobetaine, and the alkaline solution contains a cationic polymer.

A urine sample testing apparatus may include a urine qualitative measuring section configured to acquire a measurement result for each of a plurality of urine qualitative measurement items and a urine sediment measuring section configured to acquire a measurement result for each of a plurality of urine sediment measurement items. The apparatus may also include an operation part that can specify a combination of one of the plurality of urine qualitative measurement items and one of the plurality of urine sediment measurement items. An information processing unit may also be included.

Provided herein are compositions and methods for proteomic analysis. In particular, provided herein are compositions and methods for performing mass spectrometry-based protein quantitation analysis.