Patent application number | Description | Published |
20080255622 | FACET FIXATION AND FUSION SCREW AND WASHER ASSEMBLY AND METHOD OF USE - A spinal implant including a stabilization member coupled to an elongate member is herein provided. The implant can be configured for placement within a facet joint in an intra-facet or trans-facet configuration. Also, the implant can include a fusion-promoting bioactive material thereby providing a single device capable of spinal stabilization and/or fusion. Furthermore, a method of placing such an implant within a facet joint in an intra-facet or trans-facet orientation is hereby provided. | 10-16-2008 |
20090018400 | SURGICAL RETRACTOR SYSTEMS AND ILLUMINATED CANNULAE - This invention includes surgical retractors that comprise an expandable frame that includes at least two base components, a connector, and at least two retractor blades attached to the expandable frame. Also included are surgical retractors that comprise a housing component that includes a cylindrical portion and a contiguous blade portion, assemblies comprising a surgical retractor assembled to at least one obtruator, illuminated surgical cannulas, and methods of using the same during a surgical procedure. | 01-15-2009 |
20090030421 | Implant engagement method and device - A method and system for engaging an implant with a bone is disclosed. In one method incorporating principles of the invention, a bone is engaged with an implant by placing a first surface of an implant adjacent to a first bone portion, contacting the first bone portion with at least one first engagement member extending from the first surface, controlling an agitator to agitate the first surface of the implant and the at least one first engagement member, generating at least one first surface feature in the first bone portion with the agitated at least one first engagement member, stilling the first surface implant and the at least one first engagement member and settling the stilled at least one first engagement member into engagement with the at least one first surface feature. | 01-29-2009 |
20120232407 | SMART PEDICLE TOOL - Various methods and devices are provided for navigating through bone. In one embodiment, a bone navigation device is provided and includes a bone penetrating member configured to be implanted in bone and having at least one optical waveguide extending therethrough. The optical waveguide is adapted to illuminate tissue surrounding the device and to receive reflected/transmitted light from the tissue to determine the optical characteristics of the tissue, thus facilitating navigation through the tissue. At least one window can be formed in the bone penetrating member for allowing light from the at least one optical waveguide to illuminate the tissue, and for receiving the reflected light. | 09-13-2012 |
Patent application number | Description | Published |
20140103476 | METHOD FOR MAKING IMAGE SENSORS USING WAFER-LEVEL PROCESSING AND ASSOCIATED DEVICES - A method of making image sensor devices may include forming a sensor layer including image sensor ICs in an encapsulation material, bonding a spacer layer to the sensor layer, the spacer layer having openings therein and aligned with the image sensor ICs, and bonding a lens layer to the spacer layer, the lens layer including lens in an encapsulation material and aligned with the openings and the image sensor ICs. The method may also include dicing the bonded-together sensor, spacer and lens layers to provide the image sensor devices. Helpfully, the method may use WLP to enhance production. | 04-17-2014 |
20140111875 | METHOD FOR MAKING PAIRED LENSES WITH AN OPAQUE BARRIER BETWEEN, AND PRODUCT MADE - A method comprises depositing an optical filter layer on a glass wafer, then cutting the wafer into dice. The dice are positioned on a carrier and encapsulated in a molding compound to form a reconstituted wafer, and the wafer is back-ground and polished. Lens faces are positioned on opposing surfaces of the glass dice and spacers are positioned on one side of the wafer. The wafer is then cut into lens modules, each having two side-by-side lenses with an opaque molding compound barrier between. The individual modules are attached to devices that require dual lenses, such as, e.g., proximity sensors that use a light source and a light receiver or detector. | 04-24-2014 |