Patent application number | Description | Published |
20090081276 | BIORESORBABLE IMPLANT COMPOSITION - A bioresorbable implant composition includes a polymeric macro- or micro-scaffold and first and second bioactive agents respectively incorporated on or within the polymeric macro- or micro-scaffold. The first and second bioactive agents modulate a different function and/or characteristic of a cell. | 03-26-2009 |
20110008443 | PHOTOCROSSLINKED BIODEGRADABLE HYDROGEL - A photocrosslinked biodegradable hydrogel includes a plurality of natural polymer macromers cross-linked with a plurality of hydrolyzable acrylate cross-links. The hydrogel is cytocompatible and produces substantially non-toxic products upon degradation. | 01-13-2011 |
20130230493 | PHOTOCROSSLINKED BIODEGRADABLE HYDROGEL - A photocrosslinked biodegradable hydrogel includes a plurality of natural polymer macromers cross-linked with a plurality of hydrolyzable acrylate cross-links. The hydrogel is cytocompatible and produces substantially non-toxic products upon degradation. | 09-05-2013 |
20140186952 | SCAFFOLD-FREE TISSUE CONSTRUCTS - A tissue construct comprising includes a self-assembled, scaffold-free, high-density cell aggregate. The cell aggregate includes a plurality of cells and a plurality of biocompatible and degradable nanoparticles and/or microparticles that are incorporated within the cell aggregate. The nanoparticles and/or microparticles act as a bulking agent and/or provide bioactive agents or signals within the cell aggregate to increase the cell aggregate size and/or thickness and improve the mechanical properties of the cell aggregate and/or regulate cell function within the aggregate allowing the cell aggregate to be readily manipulated and formed into tissue constructs with defined architectures and potential tissue specific functionality. | 07-03-2014 |
Patent application number | Description | Published |
20090095106 | Motorized gear and coupling system - A system for controlling airflow in a plenum, that comprises a worm gear and planetary gear that are removably coupled to a worm shaft and planetary shaft, respectively. The planetary shaft controls the movement of a damper between an open position permitting maximum airflow through the plenum, and a closed position restricting airflow through the plenum. A motor or gear-motor is positioned at the plenum for driving the worm shaft. The motor is controlled by a remotely located controller that includes a power supply for operating the motor. The controller is connected to the motor through a cable with a detachable electrical connection between the cable and the controller. Alternatively, the movement of the damper is controlled by a drive shaft, which connects the motor or gear motor directly to the damper without intervening gearing. The motor is positioned in the airflow of the plenum. The cable may extend through the plenum to a diffuser or other opening in the plenum for connection to the controller, or may exit through a hole formed in the plenum. | 04-16-2009 |
20090111373 | Motorized gear and coupling system - A system for controlling airflow in a plenum, that comprises a worm gear and planetary gear that are removably coupled to a worm shaft and planetary shaft, respectively. The planetary shaft controls the movement of a damper between an open position permitting maximum airflow through the plenum, and a closed position restricting airflow through the plenum. A motor or gear-motor is positioned at the plenum for driving the worm shaft. The motor is controlled by a remotely located controller that includes a power supply for operating the motor and that has a display providing a continuous indication of the position of the damper between the open and closed positions. The controller is connected to the motor through a cable with a detachable electrical connection between the cable and the controller. Alternatively, the movement of the damper is controlled by a drive shaft, which connects the motor or gear motor directly to the damper without intervening gearing. The motor is positioned in the airflow of the plenum. The cable may extend through the plenum to a diffuser or other opening in the plenum for connection to the controller, or may exit through a hole formed in the plenum. | 04-30-2009 |
20090181611 | Motorized gear and coupling system - A system for controlling airflow in a plenum, that comprises a worm gear and planetary gear that are removably coupled to a worm shaft and planetary shaft, respectively. The planetary shaft controls the movement of a damper between an open position permitting maximum airflow through the plenum, and a closed position restricting airflow through the plenum. A motor or gear-motor is positioned at the plenum for driving the worm shaft. The motor is controlled by a remotely located controller that includes a power supply for operating the motor and that has a display providing a continuous indication of the position of the damper between the open and closed positions. The controller is connected to the motor through a cable with a detachable electrical connection between the cable and the controller, such as a jack and plug. A wall plate for housing the electrical connection is mounted on a wall or other structure. The wall plate has a first plate for housing the jack and a second plate with a flexible flange for removably securing the jack in the housing by snap fit insertion. | 07-16-2009 |
20150062787 | MOBILE DEVICE CASE - A protective case for housing a mobile device is provided. The protective case comprises a top shell that seals against a top surface of a device and a bottom shell that cradles the back of the device. The top shell provides a downward extension along its perimeter that fits within a pocket formed around at least a portion of the perimeter of the bottom shell. At least the top shell forms an outward extending protrusion that is gripped by one or more backing elements that slide over the exterior of the bottom shell and extend up around the protrusion to grip the top shell and secure it to the bottom shell. Where upper and lower backing elements are used that meet at a parting line along the outer (exterior) surface of the bottom shell, a locking mechanism may be used to pull the backing elements together and hold them in place. | 03-05-2015 |