Patent application number | Description | Published |
20090105167 | Predicting responsiveness to cancer therapeutics - The invention provides for compositions and methods for predicting an individual's responsitivity to cancer treatments and methods of treating cancer. In certain embodiments, the invention provides compositions and methods for predicting an individual's responsitivity to chemotherapeutics, including salvage agents, to treat cancers such as ovarian cancer. The invention also provides reagents, such as DNA microarrays, software and computer systems useful for personalizing cancer treatments, and provides methods of conducting a diagnostic business for personalizing cancer treatments. | 04-23-2009 |
20090186024 | Gene Expression Signatures for Oncogenic Pathway Deregulation - The disclosure relates to identifying deregulated pathways in cancer. In certain embodiments, the methods of the disclosure can be used to evaluate therapeutic agents for the treatment of cancer. | 07-23-2009 |
20090291452 | MICRO-RNA PROFILES ASSOCIATED WITH ENDOMETRIAL CANCER DEVELOPMENT AND RESPONSE TO CISPLATIN AND DOXORUBICIN CHEMOTHERAPY - A method predicting of cancer chemoresponse of the population of cancer cells to the one or more chemotherapeutic agents. Our ability to treat patients with advanced stage and recurrent endometrial cancer is hampered by an incomplete understanding of the molecular basis of disease development and response to therapy. A novel class of gene products called microRNA (miRNA) has recently been implicated in the etiology of several different human cancers. Altered levels of expression of specific miRNAs may contribute to cancer development in a variety of cancers such as endometrial cancer and may also influence response to cytotoxic chemotherapy or other cancer treatments. Evidence is provided that differential expression of miRNAs contributes to endometrial carcinogenesis and further associates with sensitivity of endometrial cancer cells to various chemotherapeutic agents including cisplatin and doxorubicin chemotherapy. MiRNA profiles and their gene targets show promise as biomarkers of endometrial cancer chemo-response, and as a novel class of therapeutic targets for patients with endometrial cancer. | 11-26-2009 |
20100279957 | PREDICTING RESPONSIVENESS TO CANCER THERAPEUTICS - Provided herein are methods for predicting the responsiveness of a cancer to a chemotherapeutic agent using gene expression profiles. In particular, methods for predicting the responsiveness to 5-fluorouracil, adriamycin, cytotoxan, docetaxol, etoposide, taxol, topotecan, PB kinase inhibitors and Src inhibitors are provided. Methods for developing treatment plans for individuals with cancer are also provided. Kits including gene chips and instructions for predicting responsiveness and computer readable media comprising responsivity information are also provided. | 11-04-2010 |
20100292087 | METHOD OF PREDICTING CHEMOTHERAPEUTIC RESPONSIVENESS OF CANCER - Disclosed is a method of predicting clinical tumor outcome by providing gene expression from a tumor sample. The method utilizes a novel genetic screen to identify genes that contribute to chemotherapeutic responsiveness, using formalin fixed paraffin embedded clinical samples of epithelial cancer, specifically serous ovarian cancer. The method is useful in predicting tumor responsiveness to chemotherapeutics, including alkylating agents, cisplatin, antimetabolites, plant alkaloids, and antitumor antibiotics. A microarray screen showed formalin fixed paraffin embedded samples can identify genes related to chemotherapeutic response with 86% efficiency. | 11-18-2010 |
20100305058 | INDIVIDUALIZED CANCER TREATMENTS - The invention provides for compositions and methods for predicting an individual's responsitivity to cancer treatments and methods of treating cancer. In certain embodiments, the invention provides compositions and methods for predicting an individual's responsitivity to chemotherapeutics, including platinum-based chemotherapeutics, to treat cancers such as ovarian cancer. Furthermore, the invention provides for compositions and methods for predicting an individual's responsivity to salvage therapeutic agents. By predicting if an individual will or will not respond to platinum-based chemotherapeutics, a physician can reduce side effects and toxicity by administering a particular additional salvage therapeutic agent. This type of personalized medical treatment for ovarian cancer allows for more efficient treatment of individuals suffering from ovarian cancer. The invention also provides reagents, such as DNA microarrays, software and computer systems useful for personalizing cancer treatments, and provides methods of conducting a diagnostic business for personalizing cancer treatments. | 12-02-2010 |
20110166095 | CANCER PLATINUM RESISTANCE DETECTION AND SENSITIZATION METHOD - The phosphorylation status of the BAD protein is a determinant of ovarian cancer cell responsiveness to platinum chemotherapy. Indirect manipulation of BAD phosphorylation status influences cisplatin sensitivity. BAD phosphorylation represents a biomarker that predicts platinum sensitivity and is a therapeutic target to increase platinum sensitivity. The methods employ phospho-specific antibody against a particular amino acid residue or site. Phospho-specific protein characterization methods include immunohistochemical (IHC), flow cytometric, immunofluorescent, capture-and-detection, or reversed phase assay. | 07-07-2011 |
20130344168 | Compositions and Methods APC, CREB, and BAD Pathways to Assess and Affect Cancer - Disclosed are compositions and methods for assessing the apoptosis and survival BAD phosphorylation pathway (BAD pathway); and/or (2) the cell cycle role of APC in cell cycle regulation pathway (APC pathway); and/or (3) the transcription CREB pathway (CREB pathway) and for using these pathways to assess, treat, monitor, prognose, diagnose, etc. subjects with cancer. Also disclosed are compositions and methods for identifying molecular pathways that are common to one or more chemotherapeutic agents for the treatment of an oncological disorder, for screening for compounds or agents that can be used to treat ovarian cancer, and for selecting for compounds or agents that can enhance the cytotoxic response of cisplatin, carboplatin, and/or paclitaxel against a cancer cell, such as an ovarian cancer cell or cell line. | 12-26-2013 |
20150080249 | O-GLYCAN PATHWAY OVARIAN CANCER SIGNATURE - Biomarkers, methods, assays, and kits are provided for determining the prognosis of and treating a patient with ovarian cancer. Also disclosed are biomarkers, methods, assays, and kits for predicting the sensitivity of ovarian cancer cells to chemotherapy. | 03-19-2015 |