Patent application number | Description | Published |
20100241124 | Soft Tissue Manipulator Assembly - The present disclosure relates to an instrument for manipulating soft tissue during a soft tissue repair procedure. The instrument includes a handle and a shaft coupled to the handle, the shaft including a proximal portion and a distal portion, wherein the distal portion of the shaft comprises a tip including at least two prongs and a channel located between the prongs. | 09-23-2010 |
20110112576 | Tissue Repair Devices - The present disclosure relates to an anchor assembly. The anchor assembly includes an anchor defining a cavity and an opening to the cavity; and a headless insertion member configured for arrangement within the anchor cavity, the insertion member including a body having a threaded proximal portion, a non-threaded distal portion, and a cannulation extending a partial length of the insertion member. Other anchor assemblies, anchors, and delivery devices are also disclosed. | 05-12-2011 |
20110224727 | Threaded Suture Anchor - The present disclosure relates to a suture anchor. The suture anchor includes a body having a proximal end and a distal end, the body including threads along at least a partial length of the body and at least one through hole, the threads including a profile such that the threads located near the distal end of the body include a first shape and the threads located near the proximal end of the body include a second shape different from the first shape. Delivery devices and anchor dilators are also disclosed. | 09-15-2011 |
20120059384 | Composite Interference Screws and Drivers - The present disclosure relates to a delivery device. The delivery device including a handle assembly, the assembly including a handle and a connector coupled to the handle, the connector including a channel and an opening to the channel; and a shaft coupled to the handle, the shaft including a proximal end and a distal end, the distal end including threads, grooves intersecting the threads, and a depth stop. Other delivery devices, screws, and delivery device/screw combinations are also disclosed. | 03-08-2012 |
20120179163 | Composite Interference Screws and Drivers - The present disclosure relates to a delivery device and screw combination. The combination includes a delivery device comprising a handle and a shaft coupled to the handle, the shaft including a proximal end, a distal end, a non-circular cannulation, and markings along a length of the shaft; an interference screw coupled to the delivery device comprising a proximal end and a distal end, the screw including threads extending in an open helical form from the proximal end to the distal end, a suture bridge located at a distal end of the screw and housed within a slot of the delivery device shaft, and a plurality of runners extending longitudinally along an interior of the screw, the runners housed within grooves of the delivery device shaft; and a suture disposed around the suture bridge, ends of the suture extending through the cannulation of the delivery device shaft. | 07-12-2012 |
20130085529 | KNOTLESS SUTURE ANCHOR - Methods and apparatus described herein provide for a knotless suture anchor that captures and secures a suture by pinching on an inserted suture with a flexible element disposed within the knotless suture anchors body. The knotless suture anchor has an integrated flexible element that is formed as a plastic part within the knotless suture anchor's body. The free end of the flexible element terminates near a suture eyelet and can be compressed by a driver rod that is inserted into the knotless suture anchor to allow for insertion of a suture. With the flexible element compressed by the driver rod, the suture can be passed through the eyelet(s). When the driver rod is withdrawn, the flexible element expands thereby pinching the suture against the eyelet(s). If the driver rod is reinserted, the flexible element is recompressed and the suture can thereby be released or adjusted. | 04-04-2013 |
20130103054 | Blended Shaft Drive - A solid, monolithic shaft member has an engagement end. The engagement end has a proximal end a distal end. The proximal end has a first cross-sectional geometry, and the distal end has a second cross-sectional geometry. The first cross-sectional geometry of the proximal end is different from the second cross-sectional geometry of the distal end. The cross-sectional geometry of the distal end transitions to the a cross-sectional geometry of the proximal end along a longitudinal axis of the engagement end of the solid, monolithic shaft member. This transition provides a gradual, blending, continuously transitioning cross-sectional geometry along the entire length of the longitudinal axis of the engagement end of the solid, monolithic shaft member. | 04-25-2013 |
20130178901 | COMPOSITE INTERFERENCE SCREWS AND DRIVERS - The present disclosure relates to an anchor. The anchor includes a suture bridge having a proximal end and distal end. The distal end of the suture bridge has a thickness greater than a thickness of the proximal end of the suture bridge. At least two ribs extend from the proximal end of the suture bridge to a proximal end of the anchor. At least one open helical coil wraps around the at least two ribs and extends, substantially, from the proximal end of the suture bridge to the proximal end of the anchor. The at least one open helical coil defines an internal volume communicating with a region exterior to the anchor through apertures between turns of the at least one open helical coil. The at least two ribs are engagable with a grooved shaft of a driver. | 07-11-2013 |
20140081339 | ANCHOR HAVING A CONTROLLED DRIVER ORIENTATION - The present disclosure relates to an interference screw having a body with a proximal end, distal end, and longitudinal axis extending between thereinbetween. The screw further includes threads for fixing the screw into bone. The screw further includes a through bore defined by the body. The through bore extends between the proximal and distal ends along the longitudinal axis, and has a surface. The screw further includes a controlling member formed by the through bore surface. To install the screw into bone, a surgeon turns the screw with a driver that engages with the controlling member. The driver only engages the controlling member when it is in a driving orientation with respect to the controlling member. Advantageously, with this “one-way” engagement the surgeon can control and confirm the orientation of the driver without seeing the driver and/or screw. | 03-20-2014 |
20140172016 | SURGICAL INSTRUMENT - The present invention relates to a surgical anchor delivery system ( | 06-19-2014 |
20140277129 | FENESTRATED LOCKING SUTURE ANCHOR ASSEMBLY - The technology includes an anchor assembly for tissue repair having an open helical coil sleeve and a tip structure. The tip structure includes an aperture for passing a suture and a suture capture member for capturing a suture. The technology also includes an anchor driver for installing an anchor into bone. The anchor driver includes an outer shaft and a sleeve advancement member for advancing the sleeve as well as an inner shaft and a suture capture advancement member for advancing the suture capture member. The technology also includes a system for tissue repair having an anchor assembly and an anchor driver for installing the anchor assembly into bone. | 09-18-2014 |
20140277130 | MINIATURIZED DUAL DRIVE OPEN ARCHITECTURE SUTURE ANCHOR - The disclosure provides examples of an open architecture anchor for securing soft tissue to bone, for example, to repair a torn rotor cuff. The anchor includes at least one open helical coil defining a polygonal internal volume and at least one rib disposed within the polygonal internal volume and connected to at least two turns of the at least one open helical coil. The at least one rib is sized to engage a driver and a combination of the at least one rib and the polygonal internal volume is sized to provide an anchor drive torque required to drive the anchor into bone. | 09-18-2014 |
20140277192 | REDUCED AREA THREAD PROFILE FOR AN OPEN ARCHITECTURE ANCHOR - The disclosure provides examples of an open architecture anchor for securing soft tissue to bone, for example, to repair a torn rotor cuff. The anchor includes a helical screw thread having a base and two sidewalls that are non-linear. The non-linear sidewalls extend from opposing ends of the base and meet at a peak. The non-linear sidewalls are circumscribed within a triangle defined by the peak and ends of the base. Compared to the standard triangle profile, the helical screw thread profile has a smaller cross-sectional surface area and, consequently, removes less bone. The helical screw thread having the reduced cross-sectional area preserves bone stock and enhances the holding strength of the anchor in bone. | 09-18-2014 |
20140288598 | KNOTLESS SUTURE ANCHOR - Methods and apparatus described herein provide for a knotless suture anchor that captures and secures a suture by pinching on an inserted suture with a flexible element disposed within the knotless suture anchors body. The knotless suture anchor has an integrated flexible element that is formed as a plastic part within the knotless suture anchor's body. The free end of the flexible element terminates near a suture eyelet and can be compressed by a driver rod that is inserted into the knotless suture anchor to allow for insertion of a suture. With the flexible element compressed by the driver rod, the suture can be passed through the eyelet(s). When the driver rod is withdrawn, the flexible element expands thereby pinching the suture against the eyelet(s). If the driver rod is reinserted, the flexible element is recompressed and the suture can thereby be released or adjusted. | 09-25-2014 |