Abstract: The invention provides methods and materials related to a gene expression-based survival predictor for DLBCL patients.

Abstract: 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.

Abstract: The invention provides methods and materials related to a gene expression-based survival predictor for DLBCL patients.

Abstract: The invention provides methods and materials related to a gene expression-based survival predictor for DLBCL patients.

Abstract: 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.

Abstract: The invention provides methods and materials related to a gene expression-based survival predictor for DLBCL patients.

Abstract: The present invention features a polypeptide, such as an antibody produced by the hybridoma SAM-6 and its use in the treatment and diagnosis of neoplasms.

Abstract: The present invention features a polypeptide, such as an antibody produced by the hybridoma SAM-6 and its use in the treatment and diagnosis of neoplasms.

Abstract: 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.

Abstract: A purified polypeptide that binds to neoplastic cells, which may be an antibody, is produced by the hybridoma SAM-6, a method for its production and use in the treatment and diagnosis of neoplasms.

Abstract: 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.

Abstract: The invention provides methods and materials related to a gene expression-based survival predictor for diffuse large B cell lymphoma (DLBCL) patients.

Abstract: The invention features anti-idiotype antibodies of the human monoclonal antibody SC-1, as well as methods for producing and using the anti-idiotype antibodies.

Abstract: The invention features anti-idiotype antibodies of the human monoclonal antibody SC-1, as well as methods for producing and using the anti-idiotype antibodies.

Abstract: The present invention features novel polypeptides and methods of using these polypeptides in the diagnosis, detection, monitoring, and treatment of neoplasms in a mammal, e.g., a human.

Abstract: The present invention features novel polypeptides and methods of using these polypeptides in the diagnosis, detection, monitoring, and treatment of neoplasms in a mammal, e.g., a human.

Abstract: A purified polypeptide that binds to neoplastic cells, which may be an antibody, is produced by the hybridoma SAM-6, a method for its production and use in the treatment and diagnosis of neoplasms.

Abstract: The invention features anti-idiotype antibodies of the human monoclonal antibody SC-1, as well as methods for producing and using the anti-idiotype antibodies.

Abstract: 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.

Abstract: The present invention relates to a method for producing an antibody, to an antibody specifically reacting with plasma cells, to genes which encode such antibodies, to antigens which are labeled by such an antibody, to additional antibodies directed against said antigens and to methods for producing said antibodies and to uses of such antibodies. In addition, the present invention relates to single-chain multifunctional polypeptides comprising (a) a first domain comprising a binding site of the antibodies defined herein and (b) a second domain comprising a binding site of an immunoglobulin chain or an antibody specifically recognizing the CD3 antigen. Furthermore, compositions and kits comprising the compounds of the invention are disclosed. Preferably said compositions are pharmaceutical or diagnostic compositions.