The invention relates to the diagnosis of stroke resulting from occlusion of one or more large vessels in the brain, and in particular to the diagnosis of stroke resulting from occlusion of one or more large vessels in the brain using one or more biomarkers.

Gene expression data provides a basis for more accurate identification and diagnosis of lymphoproliferative disorders. In addition, gene expression data can be used to develop more accurate predictors of survival. The present invention discloses methods for identifying, diagnosing, and predicting survival in a lymphoma or lymphoproliferative disorder on the basis of gene expression patterns. The invention discloses a novel microarray, the Lymph Dx microarray, for obtaining gene expression data from a lymphoma sample. The invention also discloses a variety of methods for utilizing lymphoma gene expression data to determine the identity of a particular lymphoma and to predict survival in a subject diagnosed with a particular lymphoma. This information will be useful in developing the therapeutic approach to be used with a particular subject.

The present invention relates to a method for assessing atrial fibrillation in a subject, said method comprising the steps of determining the amount of BMP10 in a sample from the subject, and comparing the amount of BMP10 to a reference amount, whereby atrial fibrillation is to be assessed. Moreover, the present invention relates to a method for diagnosing heart failure based on the determination of BMP 10 in a sample from a subject. Further, the present invention relates to a method for predicting the risk of a subject of hospitalization due to heart failure based on the determination of a BMP10-type peptide in a sample from a subject. The present invention further pertains to antibodies which bind to one or more BMP10-type peptides such as NT-proBMP10.

An object of the present invention is to provide an anti-BMP10 antibody, and a therapeutic agent for hypertension and a hypertensive disease, containing the antibody as an active ingredient. The present invention relates to an anti-BMP10 monoclonal antibody or an antibody fragment thereof that binds to human BMP10 (bone morphogenetic protein 10). Further, the present invention relates to a therapeutic agent for hypertension and a hypertensive disease containing an antagonist for at least one of BMP10 and a BMP9/BMP10 heterodimer, a diagnostic agent or a pharmaceutical composition for a disease associated with human BMP10, an immunological detection method or a measurement method for human BMP10 using the antagonist, and use of the antagonist for producing a pharmaceutical composition for treating hypertension and a hypertensive disease.

An object of the present invention is to provide an anti-BMP10 antibody, and a therapeutic agent for hypertension and a hypertensive disease, containing the antibody as an active ingredient. The present invention relates to an anti-BMP10 monoclonal antibody or an antibody fragment thereof that binds to human BMP10 (bone morphogenetic protein 10). Further, the present invention relates to a therapeutic agent for hypertension and a hypertensive disease containing an antagonist for at least one of BMP10 and a BMP9/BMP10 heterodimer, a diagnostic agent or a pharmaceutical composition for a disease associated with human BMP10, an immunological detection method or a measurement method for human BMP10 using the antagonist, and use of the antagonist for producing a pharmaceutical composition for treating hypertension and a hypertensive disease.

Methods and compositions are provided for the selective activation of a BMP-dependent response in certain cell types. Methods include identifying a ligand or ligand combinations as well as cell receptor profiles that result in selectively activating a ligand-dependent response through interactions with ligand receptors on a first cell type that do not activate the ligand-dependent response in a second cell type.

The invention relates to a process for preparation of an unpassivated cantilever comprising the steps of: 1) providing a silicon cantilever sensor having two sides; 2) coating one side of the cantilever with at least a gold layer; and 3) functionalizing both sides of the cantilever with a self-assembled monolayer (SAM) of a probe molecule by incubating the cantilever in a solution having a concentration of the probe molecule of between 1 to 1000 μM.

The invention also relates to an unpassivated cantilever sensor comprising a silicon layer coated on one side with a coating comprising Au and being uncoated or unpassivated on the opposite side, wherein the Au coated surface comprises a self-assembled monolayer of a probe molecule and wherein the surface area occupied per probe molecule is in the range 0.4-1.5 nm.sup.2.

Described herein is the finding that patients with Sjögren's syndrome exhibit a statistically significant increase in expression of BMP6 in the salivary gland, relative to healthy control subjects. Also described herein is the finding that overexpression of BMP6 in the salivary glands of mice results in an increase in electrical potential across the salivary gland. Thus, provided herein are methods of diagnosing a subject as having Sjögren's syndrome, or at risk for developing Sjögren's syndrome, by measuring the level of BMP6 expression in a salivary gland of a subject, measuring electrical potential in a salivary gland of a subject, or both. Also provided herein are methods of treating a subject with Sjögren's syndrome by administering an agent that inhibits expression of BMP6 expression or activity. Also described herein is the use of XIST and MECP2 as diagnostic and therapeutic targets for male Sjögren's syndrome patients.

The present invention refers to osteomodulin (OMD) protein or fragment of osteomodulin (OMD) protein for use in the prognosis and/or diagnosis of osteoarthritis and/or subchondral bone sclerosis of mammals, preferably human individuals. The present invention further refers to a method for prognosis and/or diagnosis of osteoarthritis and/or subchondral bone sclerosis, comprising the following steps: i) measuring osteomodulin (OMD) protein or a fragment or fragments of osteomodulin (OMD) protein in samples of body fluids of mammalian individuals, preferably human serum samples; ii) judging that decreased levels of osteomodulin (OMD) protein or of said fragment(s) compared to levels in body fluids, preferably serum, of healthy individuals indicate onset of osteoarthritis and/or subchondral bone sclerosis. The present invention also provides an immunological binding partner specifically binding to osteomodulin (OMD) protein or fragment of osteomodulin (OMD) protein for use in the prognosis and/or diagnosis of osteoarthritis and/or subchondral bone sclerosis of mammals, preferably human individuals and a kit comprising said immunological binding partner.

A novel class or family of TGF-β binding proteins is disclosed. Also disclosed are assays for selecting molecules for increasing bone mineralization and methods for utilizing such molecules.