Atladottir, CA
Svava Atladottir, Mountain View, CA US
Patent application number | Description | Published |
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20110060188 | LOW COST DISPOSABLE MEDICAL FORCEPS TO ENABLE A HOLLOW CENTRAL CHANNEL FOR VARIOUS FUNCTIONALITIES - The present invention relates to an endoscopic biopsy forceps ( | 03-10-2011 |
20130149417 | CONTAINER SYSTEM - A container system is described. In one or more implementations, the container system comprises a lower container for receiving a first food component (or components) and an upper container assembly for receiving a second food component (or components) so that the second food component is separated from the first food component. The upper container assembly is configured for engagement with the lower container and is operable to be at least partially opened while the upper container assembly is engaged with the lower container to introduce the second food component into the lower container with the first food component. In one or more embodiments, a pull tab is coupled to the upper container assembly. The pull tab is configured to be pulled while the upper container assembly is engaged with the lower container to at least partially open the upper container assembly. | 06-13-2013 |
Svava Maria Atladottir, Mountain View, CA US
Patent application number | Description | Published |
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20090291196 | Abluminal Stent Coating Apparatus And Method Using A Brush Assembly - The apparatus and method use an optical feedback system to align a brush assembly with a stent strut. Once alignment is achieved, a coating is dispensed onto the stent strut via the brush assembly and the brush assembly is moved along the stent strut to coat the stent strut. | 11-26-2009 |
20110056350 | METHOD TO PREVENT STENT DAMAGE CAUSED BY LASER CUTTING - Apparatus, method and system for cutting a polymeric stent including the use of a polymeric mandrel as a laser shielding device. The polymeric mandrel is allowed to roll freely within a polymeric tube that is cut into a polymeric stent. | 03-10-2011 |
20110091614 | CONTAINER SYSTEM - A container system is described. In one or more implementations, the container system comprises a lower container for receiving a first food component (or components) and an upper container assembly for receiving a second food component (or components) so that the second food component is separated from the first food component. The upper container assembly is configured for engagement with the lower container and is operable to be at least partially opened while the upper container assembly is engaged with the lower container to introduce the second food component into the lower container with the first food component. In one or more embodiments, a pull tab is coupled to the upper container assembly. The pull tab is configured to be pulled while the upper container assembly is engaged with the lower container to at least partially open the upper container assembly. | 04-21-2011 |
20130186327 | Stent Coating Apparatus with Fibers - A stent coating apparatus for coating a stent includes a brush assembly, a stent support, and a dispensing mechanism. The brush assembly includes a plurality of fibers, and the stent support carries a stent at a position in which the stent is in contact with the fibers. The dispensing mechanism dispenses a coating composition to the plurality of fibers. | 07-25-2013 |
20140107759 | STENT LOCKING ELEMENT AND A METHOD OF SECURING A STENT ON A DELIVERY SYSTEM - A stent with a stent locking element and a method of securing a stent on a delivery implement, such as a catheter are disclosed. The locking element can include coupling elements capable of being releasably coupled to one another. The coupling elements may be adapted to inhibit shifting of the stent on the delivery implement. In some embodiments, the releasably coupled elements may secure the stent on the delivery implement. | 04-17-2014 |
Svava Maria Atladottir, San Francisco, CA US
Patent application number | Description | Published |
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20090012598 | METHOD OF FABRICATING AN IMPLANTABLE MEDICAL DEVICE BY DEFORMATION OF A TUBE OR A SHEET - A method of fabricating an implantable medical device, such as a stent, from a plastically deformed tube or sheet is described herein. The implantable medical device may be an endoprosthesis such as a stent. The method may include elongating a tube longitudinally along a cylindrical axis of the tube. The method may further include forming a pattern that includes at least one strut on the elongated tube. A further embodiment may include stretching a sheet along an axis of stretching. The method may include forming a tube from the stretched sheet. The method may further include forming a pattern including at least one strut on the stretched sheet or the tube. | 01-08-2009 |
20100137471 | Compositions Containing Fast-Leaching Plasticizers For Improved Performance Of Medical Devices - Medical implants containing a temporary plasticizer, methods of producing such implants, and methods of using the implants in treating a disease, or ameliorating one or more symptoms thereof, in a subject are provided. | 06-03-2010 |
Svava Maria Atladottir, Burlingame, CA US
Patent application number | Description | Published |
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20090036972 | Stent With Flexible Sections In High Strain Regions - A stent for treating a bodily lumen with a flexible section in a high strain region is disclosed. A flexible section may be selectively positioned to reduce an amount of strain in the high strain region when subjected to the applied stress during use to inhibit or prevent fracturing in the high strain region. | 02-05-2009 |
20100100171 | Method Of Manufacturing An Implantable Polymeric Medical Device - A polymeric tube is positioned on a polymeric mandrel and then laser cut to form an implantable medical device, such as a stent. The method reduces contamination of the inner surface of the stent, which would be caused if conventional glass or metal mandrels are used, while simultaneously reducing damage to the inner surface of the stent due to the shielding effect of the polymeric mandrel. | 04-22-2010 |
20120013061 | ASSEMBLY FOR MAKING A POLYMERIC MEDICAL DEVICE - A polymeric tube is positioned on a polymeric mandrel and then laser cut to form an implantable medical device, such as a stent. The assembly and method reduces contamination of the inner surface of the stent, which would be caused if conventional glass or metal mandrels are used, while simultaneously reducing damage to the inner surface of the stent due to the shielding effect of the polymeric mandrel. | 01-19-2012 |