Patent application number | Description | Published |
20110052548 | CELL CULTURE MEDIA TO DIFFERENTIATE EMBRYONIC STEM CELLS INTO NEURONAL LINEAGES - This invention provides compositions for differentiating an isolated embryonic stem cell or an isolated embryoid body into neuronal progenitor cells and methods for using same. | 03-03-2011 |
20110052549 | CELL CULTURE DEVICE TO DIFFERENTIATE STEM CELLS IN A SPECIFIC ORIENTATION - Methods and compositions for aligning cell growth is provided by this invention by contacting at least one isolated cell with a device, wherein the device comprises a plurality of continuously orientating substantially parallel structures on the surface of the device, and culturing the cell under conditions that favor division of the at least one cell into a population of cells, thereby growing the population of cells in a substantially parallel orientation. | 03-03-2011 |
20110122406 | PROCESSES FOR RAPID MICROFABRICATION USING THERMOPLASTICS AND DEVICES THEREOF - A method is provided to prepare one or more microfluidic channels on a receptive material by applying an image-forming material to a heat sensitive thermoplastic receptive material in a designed pattern and heating the material under conditions that reduce the size of the thermoplastic receptive material by at least about 60%. In an alternative aspect, the microfluidic channels on receptive material are prepared by etching a designed pattern into a heat sensitive thermoplastic material support and then heating the material under conditions that reduce the size of the thermoplastic receptive material by at least about 60%. | 05-26-2011 |
20120064627 | APPARATUS AND METHOD FOR CULTURING STEM CELLS - A method is provided to prepare a plurality of microwells suitable for the formation of embryoid bodies from embryonic stem cells. The method requires applying an image-forming material to a heat sensitive thermoplastic material in a designed pattern and heating the material under conditions that reduce the size of the receptive material by at least about 60% to create a mold. A polymer such as PDMS is then applied to the mold and removed to form the microwells. In an alternative aspect, the plurality of microwells on receptive material are prepared by etching a microwell designed pattern into a heat sensitive thermoplastic material support and then heating the material under conditions that reduce the size of the receptive material by at least about 60%. | 03-15-2012 |
Patent application number | Description | Published |
20110052548 | CELL CULTURE MEDIA TO DIFFERENTIATE EMBRYONIC STEM CELLS INTO NEURONAL LINEAGES - This invention provides compositions for differentiating an isolated embryonic stem cell or an isolated embryoid body into neuronal progenitor cells and methods for using same. | 03-03-2011 |
20110052549 | CELL CULTURE DEVICE TO DIFFERENTIATE STEM CELLS IN A SPECIFIC ORIENTATION - Methods and compositions for aligning cell growth is provided by this invention by contacting at least one isolated cell with a device, wherein the device comprises a plurality of continuously orientating substantially parallel structures on the surface of the device, and culturing the cell under conditions that favor division of the at least one cell into a population of cells, thereby growing the population of cells in a substantially parallel orientation. | 03-03-2011 |
20110135744 | Nanoparticle Based Therapy for Dispersing Mucin - There are provided compositions and methods to disperse mucin and/or actin using nanoparticles wherein the average diameter of the nanoparticles is less than about 1000 nm. | 06-09-2011 |
20110189257 | NANOPARTICLE BASED THERAPY FOR AGGREGATING MUCIN - There are provided compositions and methods to aggregate mucus using a plurality of positively charged nanoparticles. There are also provided compositions and methods for inducing contraception in the subject. | 08-04-2011 |
20140186290 | NANOPARTICLE BASED THERAPY FOR DISPERSING MUCIN - There are provided compositions and methods to disperse mucin and/or actin using nanoparticles wherein the average diameter of the nanoparticles is less than about 1000 nm. | 07-03-2014 |