Patent application number | Description | Published |
20090118819 | Nitric Oxide Coatings for Medical Devices - The disclosure provides for devices and coatings that are substantially free of organic solvent sand suitable for insertion into a patient, and that comprise a metal layer and a coating with a thickness of about 20 nm to about 2000 nm wherein the coating comprises a biocompatible polymer comprising at least one residue covalently bonded to a nitric oxide generating compound. | 05-07-2009 |
20100068810 | METHODS AND COMPOSITIONS FOR GROWTH OF EMBRYONIC STEM CELLS - The present invention provides methods and compositions for establishing and maintaining growth of undifferentiated stem cells. In particular, the present invention provides synthetic growth matrices for stem cells, wherein said cells are capable of going through multiple passages while remaining in an undifferentiated state. | 03-18-2010 |
20130102023 | METHODS AND COMPOSITIONS FOR GROWTH OF CELLS AND EMBRYONIC TISSUE ON A SYNTHETIC POLYMER MATRIX - The present invention provides methods and compositions for establishing and maintaining growth of cells and embryonic tissue on a synthetic polymer matrix. For example, the present invention provides synthetic growth matrices for stem cells, gametes, mature differentiated cells, and embryonic tissue (e.g., blastomeres, embryos, and embryoid bodies). In certain embodiments, the cells are capable of going through multiple passages while remaining in an undifferentiated state as a result of the synthetic polymer matrix. | 04-25-2013 |
20140255861 | METHODS AND COMPOSITIONS FOR GROWTH OF CELLS AND EMBRYONIC TISSUE ON A SYNTHETIC POLYMER MATRIX - The present invention provides methods and compositions for establishing and maintaining growth of cells and embryonic tissue on a synthetic polymer matrix. For example, the present invention provides synthetic growth matrices for stem cells, gametes, mature differentiated cells, and embryonic tissue (e.g., blastomeres, embryos, and embryoid bodies). In certain embodiments, the cells are capable of going through multiple passages while remaining in an undifferentiated state as a result of the synthetic polymer matrix. | 09-11-2014 |