A method for implementing an adapted patient care for an individual suffering from liver fibrosis after assessing liver fibrosis progression in the individual, and thus determining whether the individual is a slow, medium or fast fibroser. Also, a method for treating an individual suffering from liver fibrosis and identified as a fast fibroser, which includes the steps of identifying the individual as a fast fibroser by assessing fibrosis progression and treating the individual by administering without delay at least one therapeutic agent for treating liver fibrosis, or for treating the underlying cause responsible for liver fibrosis, or both.

Methods aiding in the diagnosis of certain neuropathies are disclosed, in which the titer of antibodies to a disulfated heparin disaccharide is assessed in a test sample from a subject. Also disclosed are apparatus and kits that can be used in the methods of the invention.

The methods described herein allow for the classification of patients into groups for receiving optimized radiation treatment based on patient specific biomarker signature. The biomarker signature includes markers that have been shown to correlate with TGF-B expression and to be associated with tumor aggressiveness, radioresistance and poor prognosis. The markers play a key role in the epithelial-mesenchymal transition. The methods described herein provide the dual benefits of anti-tumor efficacy plus normal tissue protection when combining TGF-B inhibitors with ionizing radiation to treat cancer patients.

Disclosed herein are methods and systems for determining whether a cell is resistant to one or more drugs. Also, disclosed herein are methods and systems for monitoring the treatment of a cancer patient to determine whether the cancerous cells being treated are resistant to the treatment. Further, disclosed herein are methods and systems for predicting the responsiveness of a cell to a drug. Also, disclosed herein are methods and systems to determine the rate of the efficacy of a chemotherapeutic drug on a cancerous, neoplastic or damaged cells.

To provide a novel immunotherapeutic agent which can be used for treatment of gastric cancer and the like including diffuse-type gastric carcinoma. An antibody that binds to sulfated glycosaminoglycan and has cell growth inhibitory activity is provided. The antibody of the present invention can be used as a cell growth inhibitor, a targeting reagent for drug delivery, or an agent for detecting cancer.

The present invention is related to novel methods for categorizing and treating a population of subjects that are at risk for increased pulmonary exacerbation and disease progression.

The invention provides a method of diagnosing Non-Alcoholic Steatohepatitis (NASH) and/or the hepatic fibrosis status of a subject, especially a subject afflicted with Non-alcoholic fatty liver disease (NAFLD) or NASH, based on the level of only three or more particular biomarkers. The invention further provides a kit suitable for performing said method and the use of said method and methods of treating patients diagnosed in accordance with the disclosed methods.

The invention provides antibodies that specifically bind to an epitope containing N-acetylglucosamine or N-acetyl-galactosamine expressed by a cancer cell or an inflammatory cell. Also provided are compositions including these antibodies, as well as polynucleotides, vectors, host cells, and methods useful for production thereof. Further provided are methods and kits for treating or preventing cancer in an individual by administering to the individual an antibody that specifically binds to an epitope containing N-acetylglucosamine or N-acetyl-galactosamine, optionally in combination with another anti-cancer agent. Still further provided are methods and kits for treating or preventing gastrointestinal disease in an individual by administering to the individual an antibody that specifically binds to an epitope containing N-acetylglucosamine or N-acetyl-galactosamine. Yet further provided are methods and kits for detecting the presence of cancer cells in an individual including an antibody that specifically binds to an epitope containing N-acetylglucosamine and/or N-acetyl-galactosamine.

The present invention is comprised in the field of glycobiology. In particular, it relates to a method for separating, in biological samples, the fraction bound to or associated with sulfated glycosaminoglycans (GAGs), and the applications thereof in biomedicine, such as for identifying the profile of glycoproteins or the profile of lipids bound to or associated with sulfated GAGs, detecting an alteration in the pattern of glycosylation by sulfated GAGs, identifying biomarkers for the diagnosis, for the prognosis, for monitoring the progression of a disease or of the effect of a therapy, or for identifying compounds suitable for the treatment of a disease. The invention also relates to methods for diagnosing mucopolysaccharidosis and for diagnosing and determining the prognosis of a kidney disease.

The present invention provides a facile method for separation (fractionation) of HA in a sample over a broad M range, including low M HA, by ion exchange (IEX) chromatography. The present invention also provides an assay method for quantifying in a sample the presence of low M HA in total HA isolated from a biological source. The method involves HA fractionation according to M by use of IEX separation, followed by HA-specific assay of HA size range fractions.