Patent application number | Description | Published |
20080254447 | Method and Nucleic Acids for the Improved Treatment of Breast Cell Proliferative Disorders - The present invention relates to modified and genomic sequences, to oligonucleotides and/or PNA-oligomers for detecting the cytosine methylation state of genomic DNA, as well as to a method for predicting the disease free survival and/or response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment. | 10-16-2008 |
20080286778 | Method for Investigating Cytosine Methylations in Dna - The invention relates to a method for sensitively and specifically detecting cytosine methylations. For this purpose, DNA is first analysed by reacting with the aid of a methylation specific restriction enzyme. In such a way, the background DNA is removed from a reaction preparation. At a next step, a specific conversion of a non-methylated cytosine is carried out, while a methylated cytosine remains unchanged. The converted DNA can be analysed according to different methods, in particular by means of real time PCR method. | 11-20-2008 |
20090075260 | Methods and Nucleic Acids For Analysis of Cellular Proliferative Disorders - Aspects of the invention provide methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. Particular aspects disclose and provide genomic sequences the methylation patterns of which have substantial utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients. | 03-19-2009 |
20090111707 | MARKERS FOR THE PREDICTION OF OUTCOME OF ANTHRACYCLINE TREATMENT - The present invention relates to methods for predicting the outcome of anthracycline treatment of cell proliferative disorder patients. This is achieved by determining the expression level of at least one gene selected from the group consisting of PITX2; TFF1 and PLAU. The invention also relates to sequences, oligonucleotides and antibodies which can be used within the described methods. | 04-30-2009 |
20090269736 | Prognostic markers for prediction of treatment response and/or survival of breast cell proliferative disorder patients - Aspects of the present invention provide compositions and methods for prognosis of, and/or predicting the estrogen treatment outcome of breast cell proliferative disorder patients, and in particular of patients with breast carcinoma. In preferred embodiments, this is achieved, at least in part, by determining the expression level of PITX2, and/or the genetic or the epigenetic modifications of the genomic DNA associated with the gene PITX2. Additional aspects of the invention provide novel sequences, oligomers (e.g., oligonucleotides or peptide nucleic acid (PNA)-oligomers), and antibodies, which have substantial utility in the described inventive methods and compositions. | 10-29-2009 |
20090298054 | Epigenetic methods and nucleic acids for the detection of breast cell proliferative disorders - The present application provides methods and nucleic acids for the detection and differentiation of breast cell proliferative disorders. This is achieved by the analysis of the methylation of a panel of genes, or subsets thereof. The invention may be used for the detection and/or differentiation of a variety of tissue types including breast cancer and benign breast disorders as well as other cancers and tissue types. | 12-03-2009 |
20100003680 | Method For Determining The Methylation Rate of a Nucleic Acid - The invention relates to a method for quantitatively determining the methylation rate of a nucleic acid through sequencing. According to the invention, the method comprises at least the following steps: a) treating the nucleic acid with a chemical reagent or an enzyme containing solution, whereby the base pairing behavior of methylated cytosine bases and/or unmethylated cytosine bases of the nucleic acid are altered such that methylated cytosine bases become distinguishable from unmethylated cytosine bases, and b) introducing into the nucleic acid at least one base for generating a sequencing signal to be used as a reference signal for normalization, and c) sequencing the nucleic acid, whereby a signal from each cytosine base of the nucleic acid, or a signal from each guanine base of the nucleic acid and a reference signal from the at least on introduced base is obtained, and d) normalizing the signal obtained from each cytosine base of the nucleic acid, or the signal obtained from each guanine base of the nucleic acid to the reference signal from the at least one introduced base. | 01-07-2010 |
20100184027 | METHODS AND NUCLEIC ACIDS FOR ANALYSES OF CELLULAR PROLIFERATIVE DISORDERS - The invention provides methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients. | 07-22-2010 |
20110039719 | METHODS AND NUCLEIC ACIDS FOR THE ANALYSES OF CELLULAR PROLIFERATIVE DISORDERS - The invention provides methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients. | 02-17-2011 |
20110046005 | METHOD AND NUCLEIC ACIDS FOR THE ANALYSIS OF COLON CELL PROLIFERATIVE DISORDERS - Provided are methods and nucleic acids for detecting, differentiating or distinguishing between colon cell proliferative disorders by analysis of one or more of the genes Versican, TPEF, H-Cadherin, Calcitonin, and EYA4. Further provided are novel nucleic acid sequences useful for the cell proliferative disorder specific analysis of said genes as well as methods, assays and kits thereof. | 02-24-2011 |
20110160091 | Methods and Nucleic Acids for Analyses of Cell Proliferative Disorders - The invention provides methods, nucleic acids and kits for determining the prognosis of a subject having cell proliferative disorder, preferably cancer. The invention discloses genomic sequences the methylation patterns of which have utility for the improved detection of said disorder, thereby enabling the improved diagnosis and treatment of patients. | 06-30-2011 |
20110244458 | Methods and Nucleic Acids for Analyses of Cellular Proliferative Disorders - Aspects of the invention provide methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. Particular aspects disclose and provide genomic sequences the methylation patterns of which have substantial utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients. | 10-06-2011 |
20110269126 | EPIGENETIC METHODS AND NUCLEIC ACIDS FOR THE DETECTION OF BREAST CELL PROLIFERATIVE DISORDERS - The present application provides methods and nucleic acids for the detection and differentiation of breast cell proliferative disorders. This is achieved by the analysis of the methylation of a panel of genes, or subsets thereof. The invention may be used for the detection and/or differentiation of a variety of tissue types including breast cancer and benign breast disorders as well as other cancers and tissue types. | 11-03-2011 |
20120129729 | Method for Determining the Methylation Pattern of a Polynucleic Acid - Particular aspects relate to a method for determining the methylation pattern of a polynucleic acid, comprising: a) preparing a solution comprising a mixture of fragments of the polynucleic acid; b) coupling the fragments with a substance being detectable with a detection method; c) contacting a solution comprising the fragments of b) with a DNA microarray having a plurality of different immobilized oligonucleotides, each comprising at least one methylation site, at respectively assigned different locations thereon, the contacting under conditions affording hybridization of fragments with correlated immobilized oligonucleotides under defined stringency, and wherein the immobilized oligonucleotides have a length of less than 200 bases; d) optionally performing a washing step; and e) detecting, using the physical detection method, such immobilized nucleic acids to which solution fragments are hybridized and/or to which solution fragments are not hybridized. | 05-24-2012 |
20120328518 | PROSTATE SPECIFIC MEMBRANE ANTIGEN INHIBITORS - This invention relates to novel compounds suitable for labelling by | 12-27-2012 |
20140179563 | Method and Nucleic Acids for the Analysis of Colorectal Cell Proliferative Disorders - The invention provides methods and nucleic acids for detecting, differentiating or distinguishing between colon cell proliferative disorders as well as therapy thereof by analysis of the gene EYA4 and its promoter and regulatory sequences. The invention further provides novel nucleic acid sequences useful for the cell proliferative disorder specific analysis of said gene as well as methods, assays and kits thereof. | 06-26-2014 |
20150086989 | METHODS AND NUCLEIC ACIDS FOR ANALYSES OF CELLULAR PROLIFERATIVE DISORDERS - Aspects of the invention provide methods, nucleic acids and kits for detecting, or for detecting and distinguishing between or among liver cell proliferative disorders or for detecting, or for detecting and distinguishing between or among colorectal cell proliferative disorders. Particular aspects disclose and provide genomic sequences the methylation patterns of which have substantial utility for the improved detection of and differentiation between said class of disorders, thereby enabling the improved diagnosis and treatment of patients. | 03-26-2015 |