| Patent application number | Description | Published |
|---|
| 20080267972 | Donor Lymphocyte Infusion of T Cells For the Treatment of Cancer - The present invention relates generally to the treatment of cancer using donor lymphocyte infusions of T cells. Further, the present invention relates generally to methods for stimulating and activating allogeneic and/or xenogeneic cells which can then be used in a DLI setting. | 10-30-2008 |
| 20090148404 | COMPOSITIONS AND METHODS FOR ELIMINATING UNDESIRED SUBPOPULATIONS OF T CELLS IN PATIENTS WITH IMMUNOLOGICAL DEFECTS RELATED TO AUTOIMMUNITY AND ORGAN OR HEMATOPOIETIC STEM CELL TRANSPLANTATION - The present invention relates generally to methods for stimulating T cells, and more particularly, to methods to eliminate undesired (e.g., autoreactive, alloreactive, pathogenic) subpopulations of T cells from a mixed population of T cells, thereby restoring the normal immune repertoire of said T cells. The present invention also relates to compositions of cells, including stimulated T cells having restored immune repertoire and uses thereof. | 06-11-2009 |
| 20100092436 | COMPOSITIONS AND METHODS FOR RESTORING IMMUNE RESPONSIVENESS IN PATIENTS WITH IMMUNOLOGICAL DEFECTS - The present invention relates generally to methods for stimulating, activating, and maintaining or increasing the polyclonality of expressed TCRs in a population of T cells. In the various embodiments, cells are stimulated with a surface, wherein the surface has attached thereto one or more agents that ligate a cell surface moiety of at least a portion of the T cells and stimulates at least a portion of the T cells, yielding enhanced proliferation, cell signal transduction, and/or cell surface moiety aggregation. In certain aspects methods for stimulating a population of cells such as T-cells, by cell surface moiety ligation are provided by contacting the population of cells with a surface, that has attached thereto one or more agents that ligate a cell surface moiety thereby inducing cell stimulation, cell surface moiety aggregation, and/or receptor signaling enhancement. Also provided are methods for producing T-cells for the use in diagnostics and the treatment of a variety of indications, including cancer, viral infection, and immune related disorders. Compositions of cells having increased polyclonality produced by these processes are further provided. | 04-15-2010 |
| 20100130910 | Patches and method for the transdermal delivery of a therapeutically effective amount of iron - Embodiments of the invention provide patches for the transdermal delivery of iron-containing compositions to an individual suffering from an iron deficiency. Many embodiments provide an iontophoretic patch for the transdermal delivery of a therapeutically effective amount of iron. The patch comprises an electrode and a reservoir containing a composition comprising ionic iron for the delivery of the therapeutically effective amount of iron. Various embodiments provide methods of using embodiments of the iontophoretic patch for delivering a therapeutically effective amount of iron to an individual suffering from one more forms of iron deficiency including iron deficiency anemia. Such methods can be used for treating and/or preventing the iron deficiency. The amount of delivered iron can be adjusted depending upon various treatment parameters such as patient weight and type and amount of iron deficiency. | 05-27-2010 |
| 20100130912 | Patches and methods for the transdermal delivery of a therapeutically effective amount of iron - Embodiments of the invention provide patches for the transdermal delivery of iron-containing compositions to an individual suffering from an iron deficiency. Many embodiments provide an iontophoretic patch for the transdermal delivery of a therapeutically effective amount of iron. The patch comprises an electrode and a reservoir containing a composition comprising ionic iron for the delivery of the therapeutically effective amount of iron. Various embodiments provide methods of using embodiments of the iontophoretic patch for delivering a therapeutically effective amount of iron to an individual suffering from one more forms of iron deficiency including iron deficiency anemia. Such methods can be used for treating and/or preventing the iron deficiency. The amount of delivered iron can be adjusted depending upon various treatment parameters such as patient weight and type and amount of iron deficiency. | 05-27-2010 |
| 20100272827 | Method for transdermal iontophoretic delivery of chelated agents - Embodiments provide devices, systems and methods for the transdermal delivery of chelated compounds. One embodiment provides a method for the iontophoretic transdermal delivery of a chelated iron complex for the treatment of anemia. A first patch comprising an active electrode and a chelated iron complex is applied to the skin; a second patch containing an electrode is also applied. An electrical current is then delivered to the skin from the active electrode. The chelated complex is transported across the skin via electromotive force from the current, with the iron being substantially chromogenically unreactive with the skin during transport so that there is little or no tattooing of the skin due to the formation of insoluble oxidative products. The complex is then dissociated by phagocytosis or related process to release the iron where it may be bound by transferrin or ferritin and carried to other sites for storage or metabolic use. | 10-28-2010 |
| 20110033946 | DETECTION OF SHORT-CHAIN FATTY ACIDS IN BIOLOGICAL SAMPLES - Described herein is a method of detecting and/or quantifying analytes, such as short-chain fatty acids. Analysis for the presence and/or quantity of the small molecule can be performed on a biological sample from a subject. In some embodiments, a liquid chromatography/mass spectrometry (LC-MS/MS) instrumentation is combined with a solid-phase extraction (SPE). Methods of derivatization can also be incorporated with LC-MS/MS and SPE instrumentation to detect and quantify target analytes. In addition to derivation, methods of reconstituting derivatized molecules can also be incorporated with LC-MS/MS and SPE instrumentation to detect and quantify target analytes. | 02-10-2011 |
