60 results about "Therapy resistant" patented technology

The present invention relates to a new method of treatment for persons meeting diagnoses for major depressive disorder, or other unipolar (non-bipolar, non-psychotic and non-treatment resistant) depression. The method comprises administering a combination of two categories of drugs, antipsychotics or dopamine system stabilizers, in combination with a newer antidepressant such as a selective serotonin reuptake inhibitor, as initial treatment or as soon as possible. The method targets the prevention of suicide, and provides other benefits including preventing disease progression development of tolerance toward the antidepressants. Another aspect of the invention relates to using the method for alleviating cognitive distortion and related functional impairment or health risks, and / or using the method for smoking cessation or nicotine withdrawal.

Disclosed herein are methods of treating cancer in a patient, the method comprising identifying a patient who is resistant to treatment with an anti-HER2 therapy; and administering to the patient a drug delivery molecule, comprising a polypeptide molecule adapted to target and / or penetrate a type of cell; a nucleic acid molecule bound to the polypeptide sequence via electrostatic interactions; and a chemical agent non-covalently linked to the nucleic acid sequence. Also disclosed are methods of inducing apoptosis in an anti-HER2 therapy resistant HER2+ breast cancer cell, the method comprising contacting the anti-HER2 therapy resistant HER2+ breast cancer cell with the drug delivery molecule.Further disclosed herein are methods of treating cancer in a patient, the method comprising identifying a patient who is resistant to anti-HER2 therapy; and administering to the patient a therapeutically effective amount of a drug delivery molecule, comprising a polypeptide molecule adapted to target and / or penetrate a type of cell; and a sulfonated corrole molecule bound to the polypeptide sequence. Finally disclosed herein are methods of inducing apoptosis in an anti-HER2 therapy resistant HER2+ breast cancer cell, the method comprising contacting the anti-HER2 therapy resistant HER2+ breast cancer cell with a drug delivery molecule, comprising a polypeptide molecule adapted to target and / or penetrate a type of cell; and a sulfonated corrole molecule bound to the polypeptide sequence

This invention provides methods for using novel substituted pyrimidine compounds, derivatives and analogs thereof to treat diseases such as cancer. Examples of compounds and derivatives for use in the methods are (E)-5-(2-bromovinyl)-2′-deoxy-5′-uridyl phenyl L-alaninylphosphoramidate and (E)-5-(2-bromovinyl)-2′-deoxy-5′-uridyl phenyl L-alaninyl monophosphate.

Disclosed herein are methods of treating cancer in a patient, the method comprising identifying a patient who is resistant to treatment with an anti-HER2 therapy; and administering to the patient a drug delivery molecule, comprising a polypeptide molecule adapted to target and / or penetrate a type of cell; a nucleic acid molecule bound to the polypeptide sequence via electrostatic interactions; and a chemical agent non-covalently linked to the nucleic acid sequence. Also disclosed are methods of inducing apoptosis in an anti-HER2 therapy resistant HER2+ breast cancer cell, the method comprising contacting the anti-HER2 therapy resistant HER2+ breast cancer cell with the drug delivery molecule. Further disclosed herein are methods of treating cancer in a patient, the method comprising identifying a patient who is resistant to anti-HER2 therapy; and administering to the patient a therapeutically effective amount of a drug delivery molecule, comprising a polypeptide molecule adapted to target and / or penetrate a type of cell; and a sulfonated corrole molecule bound to the polypeptide sequence. Finally disclosed herein are methods of inducing apoptosis in an anti-HER2 therapy resistant HER2+ breast cancer cell, the method comprising contacting the anti-HER2 therapy resistant HER2+ breast cancer cell with a drug delivery molecule, comprising a polypeptide molecule adapted to target and / or penetrate a type of cell; and a sulfonated corrole molecule bound to the polypeptide sequence.

The present invention enhances the effects of antitumor agents and increases the sensitivity of therapy-resistant tumor cells to antitumor agents such as chemotherapeutic agents and radiation. The present invention is thus directed to compositions and methods for inhibiting and killing neoplastic cancer cells, for example for the treatment, inhibition or prevention of tumors or malignant growths or other neoplasias in mammals. The GGT inhibitor compounds used in the methods of the present invention comprise a class of benzylthiadiazol benzenesulfoniamides represented by the general structure Formula (I) (FIG. 1), or a pharmaceutically acceptable salt thereof, wherein any one or more of R1-R10 may be H, Cl, F, Br, I, OH, an alkoxy, or NO2. Other R groups include carrier groups linked by C,N, or O. The present invention also provides a method for the prophylaxis or treatment of a reversible airways obstruction in a mammal, such as a human, comprising administration of a therapeutically effective amount of a GGT inhibitor described herein for the prophylaxis or treatment of a disease associated with reverse airways obstruction such as asthma, chronic obstructive pulmonary disease (COPD), allergic reaction, respiratory tract infection or upper respiratory tract disease. Other diseases or conditions which may be treated include, for example, degenerative diseases, renal diseases, liver diseases, and inner ear conditions or diseases.

The present invention provides a pharmaceutical composition for cancer treatment comprising an antibody against CCR8.

The present invention provides novel methods and kits for diagnosing the presence of cancer within a patient, and for determining whether a subject who has cancer is susceptible to different types of treatment regimens. The cancers to be tested include, but are not limited to, prostate, breast, lung, gastric, ovarian, bladder, lymphoma, mesothelioma, medulloblastoma, glioma, and AML. Identification of therapy-resistant patients early in their treatment regimen can lead to a change in therapy in order to achieve a more successful outcome. One embodiment of the present invention is directed to a method for diagnosing cancer or predicting cancer-therapy outcome by detecting the expression levels of multiple markers in the same cell at the same time, and scoring their expression as being above a certain threshold, wherein the markers are from a particular pathway related to cancer, with the score being indicative or a cancer diagnosis or a prognosis for cancer-therapy failure. This method can be used to diagnose cancer or predict cancer-therapy outcomes for a variety of cancers. The markers can come from any pathway involved in the regulation of cancer, including specifically the PcG pathway and the “stemness” pathway. The markers can be mRNA, microRNA, DNA, or protein.

The present invention relates to immunotherapy methods for treating hyperproliferative disease in humans, particularly to hyperproliferative disease that is refractory to therapy. More specifically, the invention is directed, in one embodiment, to methods for treating a subject with a hyperproliferative disease in which the expression of a self gene is upregulated in therapy-resistant hyperproliferative cells. In another embodiment, an adenoviral expression construct comprising a self gene under the control of a promoter operable in eukaryotic cells is administered to the therapy-resistant hyperproliferative cells. The present invention thus provides immunotherapies for treating therapy-resistant hyperproliferative disease by attenuating the natural immune system's CTL response against hyperproliferative cells or overexpressing mutant p53 antigens, for example.

Disclosed are methods and compositions for siRNA-mediated therapy of mammalian diseases. In particular, compositions and methods are disclosed for treatment of therapy-resistant human breast cancers. In exemplary embodiments, siRNA molecules are presented that effectively knock down gene expression of one or more polynucleotides in breast cancer tumor initiating cells.

[Problem to be Solved] It is an object of the present invention to provide a preventive or therapeutic composition for a therapy-resistant cancer having therapy-resistant cancer cells.[Solution] A preventive or therapeutic composition for a therapy-resistant cancer having therapy-resistant cancer cells, which is for use in photodynamic therapy, wherein the composition comprises ALAs.

The invention provides an immune molecule classification system for prostate cancer patients and application of the immune molecule classification system, and relates to the technical field of biomedicine. According to the immune molecule classification system for the prostate cancer patient, the prostate cancer patient is divided into three subtypes, namely a non-immune subtype, an immune activation subtype and an immunosuppression subtype, and clinical anti-PD-1 / PD-L1 treatment is determined through classification. The defects in the prior art are overcome, a new classification system basedon immune characteristics is established, three immune phenotypes are established, it is prompted that immune response is a driving factor of prostate cancer prognosis, and a new thought is provided for immunotherapy of prostate cancer patients.

A polyester composition for use in facilitating separation of blood serum or plasma from a cellular portion of blood, the composition containing: (a) a multifunctional acid component comprising: (i) a benzene polycarboxylic acid, and derivatives thereof; and (ii) an aliphatic polycarboxylic acid having from about 16 to about 40 carbon atoms; and (b) a diol component, and wherein the multifunctional acid component and diol component are employed in an equivalent ratio ranging from about 0.8:1.1 to about 1.0:1.3.