A method for treating vasospasm may include measuring cerebrospinal fluid (CSF) to obtain a baseline biomarker value. The method may include administering a first dose of a trehalose solution. The method may include draining the CSF to maintain a current intracranial pressure (ICP). The method may include measuring a trehalose concentration in the CSF. The method may include measuring a biomarker value in the CSF. The method may end based on a determination that the measured biomarker value indicates a predetermined biomarker concentration.

The present invention provides methods and materials for diagnosing cancer in an individual using a tissue, blood or urine sample from the patient. Specifically, the disclosed method comprises determining the level of one or more metabolite selected from the group consisting of creatine riboside, metabolite 561+, cortisol sulfate and N-acetylneuraminic acid. The present invention also provides a method for determining the prognosis of a cancer patient by determining the level of one or more metabolite selected from the group consisting of creatine riboside, metabolite 561+, cortisol sulfate and N-acetylneuraminic acid. Also provided are kits for detecting cancer or determining the prognosis of a cancer patient.

The invention provides the art with a powerful diagnostic method of distinguishing relapse-remitting MS subjects from progressive MS subjects, based on the measurement of serum concentrations of N-acetylglucosamine (GlcNAc,), for the first time enabling rapid diagnosis of the progressive form of MS. GlcNAc serum concentration can also be used to assess neurodegenerative status and MS progression in subjects suffering from MS or other neurological conditions. The methods of the invention also allow for the identification of new therapeutics for MS and other neurological conditions and also enables the personalized efficacy assessment of a potential therapy for an MS subject.

The present application provides a method of diagnosing bacterial infections using engineered glycoproteins in an immunoassay. The engineered bacterial glycoproteins used in the immunoassay comprise a bacterial antigen covalently attached to a protein via polysaccharyltransferase (PTase)-mediated glycosylation, wherein the bacterial antigen is selected based on the bacterial infection of interest. Antibodies in a bodily fluid of subjects infected with a bacteria will bind to the engineered glycoprotein, and the resulting binding complexes are detected or quantitated.

Compositions and methods for treating ovarian cancer are provided. Methods include combined treatment with chemotherapeutic agents and anti-STn antibodies. Chemotherapy resistant ovarian cancer cells may be reduced. Chemotherapy resistant ovarian cancer cells may include cancer stem cells.

An object of the present invention is to provide a standard substance for quantification of PSA having a specific sugar chain that can be used in a general purpose quantification, wherein the standard substance has less unbalanced sugar chain expression patterns, can be manufactured with high reproducibility, and enables the quantification of patient's sample comprising a high concentration of PSA, and preparation method therefor, standard solution for PSA quantification, and PSA quantification method. The standard substance comprises a compound having the structure of a PSA with a sugar chain represented by any of the following formulae A to D, and is isolated and purified from a natural product, chemically or enzymatically altered from a natural product, or the compound is artificially synthesized.

The present disclosure provides, inter alia, genetically encoded recombinant peptide biosensors comprising analyte-binding framework portions and signaling portions, wherein the signaling portions are present within the framework portions at sites or amino acid positions that undergo a conformational change upon interaction of the framework portion with an analyte.

The present disclosure provides methods, compositions, and kits for the rapid release, labeling, and detection of O-glycans present on a glycoconjugate, such as a glycoprotein, glycopeptide, peptidoglycan, or proteoglycan of interest. The compositions and methods allow the released O-glycans to be subjected to high-throughput analysis.

The present invention provides compositions and methods for determining a saccharide level in a sample. In particular, compositions and methods of the invention include a boronic acid moiety that forms a complex with a saccharide.

Disclosed is a novel means for accurate qualitative and quantitative analyses for each N-glycosylation site. The method of analyzing N-linked sugar chain(s) of glycoprotein according to the present invention comprises: treating a part of a glycopeptide-containing sample to be analyzed with endo-β-N-acetylglucosaminidases to cleave off sugar chains while leaving one GlcNAc of the chitobiose core on the Asn at the N-glycosylation site; subjecting the obtained sugar chain-cleaved sample to preliminary liquid chromatography/mass spectrometry; predicting the retention time of the glycopeptide of interest and the mass-to-charge ratio (m/z) of the precursor ion in main analysis based on the results of the preliminary liquid chromatography/mass spectrometry; and carrying out the main analysis. By this method, the binding sites and structures of N-linked sugar chains in a glycoprotein can be analyzed. By using the sugar chain-cleaved sample as an internal standard in the main analysis, quantitative analysis of sugar chains at each glycosylation site also becomes possible.