An in vitro method is provided for determining the severity and/or prognosis of a respiratory syncytial virus (RSV) infection in a subject, based on the expression of one or more mucin genes in respiratory epithelial cells. The respiratory epithelial cells can be isolated from a biological sample of a subject, or they can be cultured in vitro and exposed to a biological sample of the subject.

The invention relates to improved culture methods for expanding epithelial stem cells and obtaining organoids, to culture media involved in said methods, and to uses of said organoids.

Multiplexed test measurements are conducted using an assay module having a plurality of assay domains. In preferred embodiments, these measurements are conducted in assay modules having integrated electrodes with a reader apparatus adapted to receive assay modules, induce luminescence, preferably electrode induced luminescence, in the wells or assay regions of the assay modules and measure the induced luminescence.

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.

Embodiments of a recombinant Respiratory Syncytial Virus (RSV) G ectodomain are provided. Also disclosed are nucleic acids encoding the RSV G ectodomain and methods of producing the RSV G ectodomain. Methods for inducing an immune response in a subject are also disclosed. In some embodiments, the method can be a method for inhibiting a RSV infection in a subject by administering an effective amount of the recombinant RSV G ectodomain to the subject to produce a protective immune response.

Antiviral biomimetic polymers (ABPs) are disclosed that can be used to prevent and/or treat viral disease. The ABPs are discovered by a process involving high-throughput screening of polymer libraries using disease-relevant bioactive molecules as target molecules. ABPs can be nanoscale (termed nanoABPs) or larger. Methods are described for the preparation and use of ABPs as prophylactics and therapeutics (in vivo) and as preventative agents, for example, in personal protective equipment (ex vivo). ABPs can be used to prevent and treat viral diseases including those caused by Filoviridae.

This invention relates to a specimen-extracting solution containing a component capable of strongly suppressing false negatives, which could not be suppressed by conventional techniques, a method for extracting specimens, and a test reagent using such specimen-extracting solution and such method, when detecting virus, bacteria, target protein, or other antigens from specimens derived from body fluids, such as nasal swab specimens, nasal aspirate specimens, nasal wash specimens, nasal secretion specimens collected by nose blowing, pharyngeal swab specimens, saliva specimens, fecal specimens, serum specimens, plasma specimens, and urine specimens, with the use of a detection reagent utilizing the antigen-antibody reactions or the reactions between substances interactive with each other. The specimen-extracting solution as a constitutional unit of the test reagent or a member brought into contact with the specimens in a step performed before the detection reaction or a step performed simultaneously with the detection reaction is supplemented with a water-soluble compound comprising a phenyl, benzyl, tolyl, or xylyl group and, bound thereto, at least a carboxyl group, a functional group comprising methylated/ethylated atoms thereof, or a hydroxyl group.

The present disclosure relates to a respiratory syncytial virus (RSV)-specific binding molecule and an application thereof. The present disclosure also provides a preparation method of the above molecule, and an application of the molecule in the preparation of a product that specifically binds to the RSV surface fusion glycoprotein and the preparation of an RSV vaccine, etc.

Embodiments of a recombinant Respiratory Syncytial Virus (RSV) G ectodomain are provided. Also disclosed are nucleic acids encoding the RSV G ectodomain and methods of producing the RSV G ectodomain. Methods for inducing an immune response in a subject are also disclosed. In some embodiments, the method can be a method for inhibiting a RSV infection in a subject by administering an effective amount of the recombinant RSV G ectodomain to the subject to produce a protective immune response.

The present disclosure provides methods for determining the presence or absence of and/or the etiology of an acute respiratory viral infection in a subject, as well as methods of treating the subject based on the determination, by measuring on a platform the expression levels of a pre-defined set of gene products.