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Eric Michael
Eric Michael King, West Jordan, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20090105652 | INTRODUCER INCLUDING SHAPED DISTAL REGION - An introducer for providing intravascular access to a patient is disclosed, and includes a dilator and sheath that are configured to prevent peelback, or “fishmouthing,” of the sheath during introducer advancement. In one embodiment, the introducer comprises a dilator including a distal tapered region, and a sheath including an inner bore that receives the dilator such that a portion of the tapered region of the dilator extends from the sheath distal end. A distal outer surface of the sheath includes a first curved portion defined by a first radius and extending proximally from the distal end of the sheath to a first end point, and a second curved portion defined by a second radius and extending proximally from the first end point to a second end point. Additionally, an interference fit is established between the dilator tapered region and the sheath distal end to further prevent sheath end deformation. | 04-23-2009 |
| 20090177163 | REDUCED FRICTION CATHETER INTRODUCER AND METHOD OF MANUFACTURING AND USING THE SAME - Tear-away sheath introducers for catheters, methods for making such introducers, and methods for using such introducers are described. The sheath introducers contain movable valves that are encapsulated in a movable housing that allows the valve to move along the axis of the introducer. As the movable valve and housing travel along the axis, a portion of the hub protrudes past the valve and is exposed. As well, the sheath introducers can also contain a stationary valve and housing that can be opened to expose a portion of the hub when a conduit penetrates the stationary valve. The conduit can include a one-way valve actuator that can penetrate and open the valve, yet remain attached to a portion of the introducer when the introducer is split for removal from a patient. In both instances, the protruding portion of the hub contains a friction-free pathway for a catheter into the sheath introducer. | 07-09-2009 |
Eric Michael Lemar, Seattle, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20110196899 | PARALLEL FILE SYSTEM PROCESSING - A treewalk for splitting a file directory is disclosed for parallel execution of work items over a filesystem. The given work item is assigned to a worker. Thereafter, a request is sent to split the file directory to share a portion of the file directory with another worker. The worker examines the file directory for a next splittable directory entry key after a current in-progress location within a key space for the file directory. If no key is detected, the file directory is identified as unsplittable. If an entry is detected, the key space is progressively searched for a next entry between a next available directory entry key and an upper boundary. The worker identifies the file directory as splittable if the next available entry is found, providing a range of entries within the file directory for which parallel execution of the work item. | 08-11-2011 |
Eric Michael Loat, Moncton CA
| Patent application number | Description | Published |
|---|---|---|
| 20100120492 | ENHANCING WIN OUTCOME DISPLAY WITH FICTITIOUS LOSSES - A method of facilitating the operation of a wagering game and a system for operating the same. A winning game outcome may be randomly determined. The display of the winning game outcome to a player may be accomplished by first displaying a fictitious loss, and then visually transforming the display of the fictitious loss into a display representing the winning game outcome. | 05-13-2010 |
Eric Michael Schoenman, San Francisco, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090153357 | GAS METER HAVING ULTRA-SENSITIVE MAGNETIC MATERIAL RETROFITTED ONTO METER DIAL AND METHOD FOR PERFORMING METER RETROFIT - Device, structure and method for retrofitting a utility meter such as a gas meter with a retrofit module or for new installations to conventional meters so that it can be read remotely and so that retrofit may be accomplished simply by unskilled workers and without damage or alteration of meter. The method for retrofitting a meter of the type having shaft driven dial with dial index pointer and index cover involves removing the meter index cover to access the meter index dial pointer; attaching a magnet to the pointer so that it is carried in orbit around the pointer shaft to which the pointer is attached; and mounting a sensor to the meter adapted to sense the passage of the pointer-mounted magnet and to detect the orbit of index pointer; the attaching of the magnet and the mounting of the sensor being performed without removing the meter dial index assembly. | 06-18-2009 |
Eric Michael Storne, Menlo Park, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100121148 | METHOD AND SYSTEM FOR STEERABLE MEDICAL DEVICE PATH DEFINITION AND FOLLOWING DURING INSERTION AND RETRACTION - Waypoints for a steerable medical device are stored as the steerable medical device is moved within a patient. The stored waypoints are an ordered sequence of locations. The ordered sequence of locations defines a safe path within the patient for moving an articulatable portion of the steerable medical device. The articulatable portion of the steerable medical device is constrained to follow the safe path as the articulatable portion moves within the patient. For example, the articulatable portion of the steerable medical device is constrained to remain within a boundary region enclosing the safe path as the articulatable portion of the steerable medical device follows the safe path. | 05-13-2010 |
| 20100121151 | METHOD AND SYSTEM FOR STEERABLE MEDICAL DEVICE PATH DEFINITION AND FOLLOWING DURING INSERTION AND RETRACTION - Waypoints for a steerable medical device are stored as the steerable medical device is moved within a patient. The stored waypoints are an ordered sequence of locations. The ordered sequence of locations defines a safe path within the patient for moving an articulatable portion of the steerable medical device. The articulatable portion of the steerable medical device is constrained to follow the safe path as the articulatable portion moves within the patient. For example, the articulatable portion of the steerable medical device is constrained to remain within a boundary region enclosing the safe path as the articulatable portion of the steerable medical device follows the safe path. | 05-13-2010 |