Patent application number | Description | Published |
20110212069 | Modulation of Microglia Activation - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that modulate microglia activation. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to modulate microglia activation. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired levels of potency to modulate microglia activation. | 09-01-2011 |
20110293578 | Use of Stem Cells to Prevent Neuronal Dieback - The invention is generally directed to treatment of neuronal injury. In particular, the invention is directed to reducing axonal retraction (“dieback”) that occurs as a result of the interaction of activated macrophages with dystrophic axons that are produced during nervous system acute or chronic injury. The invention is also directed to promoting axonal growth/regeneration. The invention is specifically directed to using stem cells or their secreted cellular factors, such as would be produced in conditioned cell culture medium, to ameliorate or prevent axonal dieback and/or promote growth/regeneration of axons. | 12-01-2011 |
20110293642 | Modulation of Splenocytes in Cell Therapy - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that have one or more of the following effects in an injured subject: interact with splenocytes, preserve splenic mass, increase proliferation of CD4 | 12-01-2011 |
20110305638 | Modulation of Macrophage Activation - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that modulate macrophage activation. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to modulate macrophage activation. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired potency to modulate macrophage activation. | 12-15-2011 |
20110318313 | Modulation of Splenocytes in Cell Therapy for Traumatic Brain Injury - The invention provides methods for treating traumatic brain injury. The invention is generally directed to treating traumatic brain injury by administering cells that have one or more of the following effects in an injured subject: interact with splenocytes, preserve splenic mass, increase proliferation of CD4 | 12-29-2011 |
20120009674 | Use of a GSK-3 Inhibitor to Maintain Potency of Cultured Cells - The present invention is directed to the culture of non-embryonic cells, that can differentiate into cell types of more than one embryonic lineage, in culture under conditions that maintain differentiation capacity during expansion; more particularly, culturing non-embryonic cells in the presence of at least one GKS-3 inhibitor, such as BIO. | 01-12-2012 |
20140186307 | Use of Stem Cells to Prevent Neuronal Dieback - The invention is generally directed to treatment of neuronal injury. In particular, the invention is directed to reducing axonal retraction (“dieback”) that occurs as a result of the interaction of activated macrophages with dystrophic axons that are produced during nervous system acute or chronic injury. The invention is also directed to promoting axonal growth/regeneration. The invention is specifically directed to using stem cells or their secreted cellular factors, such as would be produced in conditioned cell culture medium, to ameliorate or prevent axonal dieback and/or promote growth/regeneration of axons. | 07-03-2014 |
20140295442 | MODULATION OF MICROGLIA ACTIVATION - The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that modulate microglia activation. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to modulate microglia activation. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired levels of potency to modulate microglia activation. | 10-02-2014 |