The disclosure provides biomarker proteins, a change in the concentration or activity level of which are associated with atypical hemolytic uremic syndrome (aHUS) or clinically meaningful treatment of aHUS with a complement inhibitor. Also provided are compositions and methods for interrogating the concentration and/or activity of one or more of the biomarker proteins in a biological fluid. The compositions and methods are useful for, among other things, evaluating risk for developing aHUS, diagnosing aHUS, determining whether a subject is experiencing the first acute presentation of aHUS, monitoring progression or abatement of aHUS, and/or monitoring response to treatment with a complement inhibitor or optimizing such treatment.

The invention relates to biocompatible, bioabsorbable derivatized non-crosslinked chitosan compositions optionally crosslinked to gelatin/collagen by 1-ethyl-3-[3-dimethylaminopropyl] carbodiimide hydrochloride (EDC) for biomedical use and methods of making and testing such compositions, including a modified acute systemic toxicity test. The compositions comprise derivatized chitosan reacetylated to a degree of N-deacetylation (DDA) of between about 15% and 40%. The compositions are typically bioabsorbed in about 90 days or less and can be made to bioabsorb at differing rates of speed. The compositions are initially soluble in aqueous solution below pH 6.5. The compositions have an acid content that can be adjusted between about 0% (w/w) and about 8% (w/w) to customize the composition for uses that require and/or tolerate differing levels of cytotoxicity, adhesion, composition cohesion, and cell infiltration into the composition.

This application provides devices for modeling ischemic stroke conditions. The devices can be used to culture neurons and to subject a first population of the neurons to low-oxygen conditions and a second population of neurons to normoxic conditions. The neurons are cultured on a porous barrier, and on the other side of the barrier run one or more fluid-filled channels. By flowing fluid with different oxygen levels through the channels, one can deliver desired oxygen concentrations to the cells nearest those channels.

A system and method for detecting a biomarker in exhaled breath condensate nanodroplets comprises noninvasively collecting exhaled breath condensate nanodroplets of a subject, and analyzing said nanodroplets utilizing immuno-quantitative polymerase chain reaction to detect one or more target biomarkers.

The present invention provides a method and a solid state device for identifying the presence of urothelial cancer in a patient comprising assigning the subject to a sub-population according to smoking habits, measuring the level of each biomarker of a panel of biomarkers in one or more samples obtained from the subject; and correlating the measured levels of the panel of biomarkers with the likelihood of the subject having urothelial cancer such that the subject can be classified as having urothelial cancer or as being a control.

Proteins that bind IL-1 and IL-1 are described along with their use in compositions and methods for treating, preventing, and diagnosing IL-1-related disorders and for detecting IL-1 and IL-1 in cells, tissues, samples, and compositions.

The present invention relates to the field of inflammatory bowel disease. More specifically, the present invention relates to the use of cytokines to detect, diagnose, and assess inflammatory bowel disease. In one embodiment, a method for diagnosing Crohn's Disease (CD) in a patient comprises the steps of (a) collecting a sample from the patient; (b) measuring the levels of at least one cytokine in the sample collected from the patient; and (c) comparing the levels of the at least one cytokine with predefined cytokine levels, wherein a correlation between the cytokine levels in the patient sample and predefined cytokine levels indicates that the patient has CD. In a specific embodiment, the at least one cytokine comprises Interferon (IFN)-gamma, Interleukin (IL)-1beta, IL-6, IL-8, IL-12, IL-17 and CXCL10.

Methods of identifying an individual as being a slow gingivitis responder or a high gingivitis responder are disclosed. Some methods are based on IL-1 levels in the individual's GCF at the site of inflammation. Some methods are based on MIF and/or CCL-1 levels in the individual's GCF in healthy tissue distant from the site of inflammation. Some disclosed methods are based on temporal differences in IL-8, IL-6 and/or TNF levels in the individual's GCF in healthy tissue distant from the site of inflammation during the development of plaque induced inflammation. Methods of treating an individual who has gingivitis and methods of preventing gingivitis are also provided. The treatment and prevention methods comprise determining if individual is a slow gingivitis responder or a high gingivitis responder and applying oral care compositions to the individual's oral cavity.

Non-invasive biomarkers for the diagnosis and prognosis of portal hypertension. Advantageously, the markers allow to appropriately differentiate between the non-clinical and clinically significant portal hypertension, thus being possible a more precise management of the therapeutic protocols.

Disclosed herein are methods of identifying biomarkers (such as genes (e.g., RNA or mRNA), proteins, and/or small molecules) that can be used to predict organ or tissue function or dysfunction. In some embodiments, the methods include ex vivo perfusion of the organ or tissue, collection of samples from the organ or tissue (for example, perfusate, fluids produced by the organ (such as bile or urine), or tissue biopsies) and measuring the level of one or more biomarkers in the sample. It is also disclosed herein that an analysis of biomarkers (such as genes (e.g., RNA or mRNA), proteins, and/or small molecules) present in a biological sample from an organ, tissue, or subject can be used to identify whether the organ, tissue, or subject is at risk for (or has) organ dysfunction or organ failure.