Abstract: The present invention relates to methods for determining a treatment regimen beyond surgical removal of tumor tissue for node negative or node positive breast cancer patient. The method comprises measuring the levels of urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor-1 (PAI-1) in a subject, preferably a tumor; and, based upon the values, predicting the expected benefit including disease-free survival and/or overall survival for the patient without treatment (beyond the surgical removal of tumor tissue) or with a particular treatment and using that information to select a treatment regimen for the subject. High risk subject is identified by high levels of both uPA and PAI-1, high level of uPA and low level of PAI-1 or, low level of uPA and high level of PAI-1.

Abstract: The present invention relates to methods for determining a treatment regimen beyond surgical removal of tumor tissue for node negative or node positive breast cancer patient. The method comprises measuring the levels of urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor-1 (PAI-1) in a subject, preferably a tumor; and, based upon the values, predicting the expected benefit including disease-free survival and/or overall survival for the patient without treatment (beyond the surgical removal of tumor tissue) or with a particular treatment and using that information to select a treatment regimen for the subject. High risk subject is identified by high levels of both uPA and PAI-1, high level of uPA and low level of PAI-1 or, low level of uPA and high level of PAI-1.

Abstract: 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.

Abstract: 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.

Abstract: 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 response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment.

Abstract: 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 response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment.

Abstract: The invention is directed to a method for training at least one learning-capable system comprising the steps of providing a predetermined training data set corresponding to a predetermined number of subjects comprising a predetermined input data set and a predetermined outcome data set, augmenting the input data set and/or the outcome data set, and training each learning-capable system using the augmented input data set and/or the augmented outcome data set.

Abstract: 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.

Abstract: 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.

Abstract: The invention concerns a method for determining competing risks for objects following an initial event based on previously measured or otherwise objectifiable training data patterns, in which several signals obtained from a learning capable system are combined in an objective function in such a way that said learning capable system is rendered capable of detecting or forecasting the underlying probabilities of each of the said competing risks.

Abstract: The invention is directed to a method for training at least one learning-capable system comprising the steps of providing a predetermined training data set corresponding to a predetermined number of subjects comprising a predetermined input data set and a predetermined outcome data set, augmenting the input data set and/or the outcome data set, and training each learning-capable system using the augmented input data set and/or the augmented outcome data set.

Abstract: 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 response of a subject with a cell proliferative disorder of the breast tissues, to endocrine treatment.

Abstract: The present invention relates to methods for determining a treatment regimen beyond surgical removal of tumor tissue for node negative or node positive breast cancer patient. The method comprises measuring the levels of urokinase-type plasminogen activator (uPA) and plasminogen activator inhibitor-1 (PAI-1) in a subject, preferably a tumor; and, based upon the values, predicting the expected benefit including disease-free survival and/or overall survival for the patient without treatment (beyond the surgical removal of tumor tissue) or with a particular treatment and using that information to select a treatment regimen for the subject. High risk subject is identified by high levels of both uPA and PAI-1, high level of uPA and low level of PAI-1 or, low level of uPA and high level of PAI-1.

Abstract: 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.

Abstract: A method for training a neural network in order to optimize the structure of the neural network includes identifying and eliminating synapses that have no significant influence on the curve of the risk function. First and second sending neurons are selected that are connected to the same receiving neuron by respective first and second synapses. It is assumed that there is a correlation of response signals from the first and second sending neurons to the same receiving neuron. The first synapse is interrupted and a weight of the second synapse is adapted in its place. The output signals of the changed neural network are compared with the output signals of the unchanged neural network. If the comparison result does not exceed a predetermined level, the first synapse is eliminated, thereby simplifying the structure of the neural network.

Abstract: The invention concerns a method for determining competing risks for objects following an initial event based on previously measured or otherwise objectifiable training data patterns, in which several signals obtained from a learning capable system are combined in an objective function in such a way that said learning capable system is rendered capable of detecting or forecasting the underlying probabilities of each of the said competing risks.