Abstract: This application relates to use of CD80 (B7-1) extracellular domain (ECD) polypeptides and CD80-ECD fusion molecules and their use in methods of increasing the number of central memory T cells or for treatment for cancer or for use in cancer vaccine compositions.

Abstract: Methods and apparatus for detecting cell-bound and soluble antigens in a biological sample are described. The method comprises forming complexes of at least one antibody-coated bead and at least one antigen in a solution, placing the solution in a magnetic field such that the formed complexes levitate in the solution at a particular height, and determining at least one characteristic of the antigen in the complexes based, at least in part, on an image of the complexes showing the magnetic levitation height.

Abstract: An ELISA for the diagnosis of Haemonchus longistipes infection in camels is provided. The ELISA for the diagnosis of Haemonchus longistipes infection in camels includes antibodies raised against a 76 kDa protein isolated from Haemonchus longistipes. The resulting antibodies may be used in assays to detect Haemonchus longistipes infected camels. The assays may be any kind of enzyme-linked immunosorbent assay, or “ELISA”, known to those of skill in the art. The assay using the antibodies raised against a 76 kDa protein isolated from Haemonchus longistipes infected camels may be capable of detecting pre-patent Haemonchus longistipes infection.

Abstract: The present invention relates to an in vitro method for determining the risk of occurrence of chronic lung graft dysfunction in a human subject comprising: a) measuring the level of CD9+ B cells in a blood sample of the subject, b) comparing the level of CD9+ B cells measured at step a) with one or more reference values of the level of CD9+ B cells, and c) determining the risk of occurrence of chronic lung graft dysfunction in the said subject from the comparison performed at step b).

Abstract: A reagent selection support apparatus for supporting selection of a reagent used for cell measurement is provided. The apparatus includes a processing unit configured to acquire order information including a first measurement item and a second measurement item different from the first measurement item, and determine a combination of a first fluorescence reagent used to measure a first target molecule corresponding to the first measurement item and a second fluorescence reagent used to measure a second target molecule corresponding to the second measurement item, based on information on a property of the first target molecule and a property of a first fluorescent stain contained in the first fluorescent reagent, and information on a property the second target molecule and a property of a second fluorescent stain contained in the second fluorescent reagent; and an output unit configured to output the determined combination of the first fluorescence reagent and the second fluorescence reagent.

Abstract: The present disclosure relates to a red blood cell (RBC) solution comprising ethylenediaminetetraacetic acid (EDTA) and methods for making and using the same. The solution can comprise EDTA at a concentration from 3-5 g/L, including 4 g/L. Well plates prepared using the solution can provide a decreased rate of false positive results in automated immunoassays for detecting RBC antibodies in a patient sample.

Abstract: A laboratory system and a method for separating interfering substances contained in test samples is presented. The laboratory system comprises separation vessels comprising solid surfaces and capturing molecules which are immobilized on the solid surfaces. The capturing molecules of the separation vessels are configured to bind interfering substances of laboratory tests of different analytical methods.

Abstract: The present invention describes an integrated apparatus that enables identification of invasive tumor cells directly from a specimen. The methods using the apparatus can be used to prognose or predict the survivability of the cancer in a subject and the risk of recurrence of the cancer in the subject after treatment. The methods disclosed herein can be used to determine which chemotherapeutic or other therapies most strongly inhibit the tumor cells invasiveness as a form of personalized therapy.

Abstract: The present invention provides methods for the identification, isolation and/or enrichment of human corneal endothelial cells (HCECs). In some embodiments, the method comprises a positive selection process in which a cell population containing human corneal cells is contacted with a positive affinity reagent that selectively binds to HCECs relative to cells other than HCECs (e.g., corneal keratocytes, etc.) in the population and/or a negative selection process in which a cell population containing HCECs is contacted with a negative affinity reagent that selectively binds to cells other than HCECs in the population relative to HCECs. The present invention also provides reagents and kits for the identification, isolation and/or enrichment of HCECs as well as compositions that are enriched in HCECs.

Abstract: A method includes attaching two or more beads to each unit of one or more units of a chemical component in a sample, to form, for each unit of the chemical component, a multi-bead complex including two or more beads and the unit of the chemical component; placing the sample on a surface of an image sensor; at the image sensor, receiving light originating at a light source, the received light including light reflected by, refracted by, or transmitted through the beads of the multi-bead complexes; at the image sensor, capturing one or more images of the sample from the received light; and identifying, in at least one of the images of the sample, separate multi-bead complexes, the identifying of the separate multi-bead complexes including associating the two or more beads of each of the multi-bead complexes based on proximity to one another.

Abstract: Two or more upconverting particles are attached to each unit of one or more units of a chemical component in a sample, to form, for each unit of the chemical component, a multi-particle complex including the unit of the chemical component and two or more corresponding upconverting particles. The sample is illuminated by input light having a first wavelength. Light is received at an imaging sensor, the received light including output light generated by at least a portion of the upconverting particles attached to the units of the chemical component, the output light having a second wavelength that is shorter than the first wavelength. One or more images of the sample are captured from the received light. Based on the captured one or more images, a presence or a level of the chemical component in the sample is determined.

Abstract: The present invention provides a device for isolating target biomolecules or cells from samples, particularly biological samples. In particular, the device comprises a loading mixture, which contains the biological sample and a first binding entity that specifically binds to the target biomolecule or target cell; and a micro-channel coated with a second binding entity that binds directly or indirectly to the first binding entity. Methods of capturing, detecting, and/or evaluating target biomolecules or target cells (e.g. cancer cells) in biological samples are also disclosed.

Abstract: This invention provides methods to evaluate therapeutic efficacy of therapeutic monoclonal antibodies.

Abstract: Cell-separation systems and methods utilizing cell-specific microbubble tags and ultrasound-based separation are described. The methods are useful for simplification of time-consuming and costly cell purification procedures and real time apoptosis detection.

Abstract: The present disclosure relates to the field of laboratory diagnostics. Specifically, methods are disclosed for determining a patient's risk of suffering from heart failure (HF) based on the detection of NT-proBNP, troponin T, and/or a natriuretic peptide. Also disclosed are methods for improving both the accuracy and speed of HF risk models by incorporating biomarker data from patient samples.

Abstract: Methods and systems for improved labeling and/or de-labeling a molecule or cell in the context of scientific experimentation, industrial applications, and clinical investigation, including the means to repeat the process of labeling and de-labeling in an efficient manner.

Abstract: The present disclosure provides assays, such as lateral flow assays, and components thereof for detection of an analyte, e.g., a neutralizing antibody, that blocks binding of a first molecular component and a second molecular component of a molecular binding pair. In some embodiments, the disclosed assays and components thereof enable the rapid detection of a SARS-CoV-2 neutralizing antibody in a sample from an individual. Also provided in other aspects of the disclosure are devices, methods of making and using, and kits of the assays described herein.

Abstract: A method for magnetic cellular manipulation may include contacting a composition with a biological sample to form a mixture. The composition may include a plurality of particles. Each particle in the plurality of particles may include a magnetic substrate. The magnetic substrate may be characterized by a magnetic susceptibility greater than zero. The composition may also include a chargeable silicon-containing compound. The chargeable silicon-containing compound may coat at least a portion of the magnetic substrate. The biological sample may include cells and/or cellular structures. The method may also include applying a magnetic field to the mixture to manipulate the composition.

Abstract: This disclosure provides improved cell lines for manufacture of protein-based pharmaceutical agents, considerably reducing the cost of commercial production. The cell lines are obtained by selecting cells from a mixed population for one or more characteristics that support protein production on a non-specific basis, such as the level of endoplasmic reticulum, Golgi apparatus, and/or other desired phenotypic features, compared with other cells in the starting mixture. Particularly effective producer cell lines can be obtained by preparing the cells for functional selection by making cell hybrids. A gene encoding a therapeutic protein of interest may be transfected into the cells before or after one or more cycles of fusion and selection. Depending on the protein product being expressed, cell lines may be obtained that produce eight grams or more of protein per liter of culture fluid.

Abstract: Methods are provided for detecting a single compound analyte immobilized to a solid substrate by serially contacting and removing different probes to the same analyte.