Patent application number | Description | Published |
20090157123 | DYNAMIC BONE FIXATION ELEMENT AND METHOD OF USING THE SAME - The present invention relates to dynamic bone fixation elements and a surgical method to stabilize bone or bone fragments. The dynamic bone fixation elements preferably include a bone engaging component and a load carrier engaging component. The bone engaging component preferably includes a plurality of threads for engaging a patient's bone and a lumen. The load carrier engaging component preferably includes a head portion for engaging a load carrier (e.g., bone plate) and a shaft portion. The shaft portion preferably at least partially extends into the lumen. Preferably at least a portion of an outer surface of the shaft portion is spaced away from at least a portion of an inner surface of the lumen via a gap so that the head portion can move with respect to the bone engaging component. The distal end of the shaft portion is preferably coupled to the lumen. | 06-18-2009 |
20100152856 | FULL-METAL DAMPENING INTERVERTEBRAL IMPLANT - A flexible element that may be configured, among various uses, as an intervertebral implant for insertion into an intervertebral disc space between adjacent vertebral bodies or between two bone portions. The flexible element includes one or more struts extending from superior and inferior endplates and bending towards one another for connection with one or more internal beams. | 06-17-2010 |
20110118845 | FLEXIBLE DAMPENING INTERVERTEBRAL SPACER DEVICE - A flexible dampening intervertebral spacer ( | 05-19-2011 |
20110208307 | TOTAL DISC REPLACEMENT WITH W-SHAPED SPRING ELEMENTS - An intervertebral implant for mounting between superior and inferior vertebrae includes first and second endplates and an inlay. The first endplate has a first vertebra engagement surface and a first inner surface. The first vertebra engagement surface is mounted to the superior vertebra in an implant positions. The second endplate has a second vertebra engagement surface and a second inner surface. The second vertebra engagement surface is mounted to the inferior vertebra in the implanted position. The inlay is mounted to and between the first and second inner surfaces in an assembled configuration. The inlay includes a first mounting plate, a second mounting plate, a first W-shaped spring and a second W-shaped spring. The first and second W-shaped springs are mounted between the first and second mounting plates. The first and second W-shaped springs have longitudinal axes that are generally parallel to the insertion axis. | 08-25-2011 |
20120158136 | Surgical Implant - A surgical implant comprises a body having a compressed state and an uncompressed state. An envelope contains the body in at least the compressed state. The envelope forms an air-tight seal around the body in the compressed state and is water-soluble or degradable in body fluids. | 06-21-2012 |
20120310368 | Surgical Implant - A surgical implant comprising: a substrate having an exterior surface and a plurality of layers disposed over the substrate exterior surface. The substrate comprises a polymeric material, and the plurality of layers comprises: an activated substrate surface layer; a valve metal layer; and a porous valve metal oxide layer, wherein the valve metal layer is disposed between the activated substrate layer and the porous valve metal oxide layer. The disclosure provides for a method for producing a polymeric surgical implant. The exterior substrate surface is treated by one or more processes comprising: plasma activation; electron beam irradiation; ultraviolet light; and low energy Ar+ ion beam irradiation; producing an activated substrate surface layer. A plurality of layers is applied over the activated substrate surface layer. The surface is converted by a spark-anodization process in an alkaline bath containing Ca and P ions into a layer of porous valve metal oxide. | 12-06-2012 |
20130231700 | Surgical Suture With Soft Core - A fastening element comprising (a) a non-load bearing core, the non-load bearing core comprising a first biocompatible polymer; (b) a load bearing sheath, the load bearing sheath comprising a second biocompatible polymer, wherein the load bearing sheath surrounds the non-load bearing core. The fastening element can be used as a suture, shoe lace or rope. The non-load bearing core has a Durometer Hardness Type A value ranging from 15 to 30. The load bearing sheath is formed from a plurality of yarns, each yarn comprising a plurality of filaments in form of mono or multifilament of the second biocompatible polymer. Each yarn may have a tenacity at break value ranging from 30 cN/dtex to 45 cN/dtex. | 09-05-2013 |
20150202018 | TORQUE LIMITING INSTRUMENT - A torque limiting instrument is configured to drive a shaft to rotate in a select direction in response to an applied torque until the applied torque reaches a predetermined threshold. | 07-23-2015 |