Abstract: In one embodiment of the present invention, a fixation device including a sleeve member including an interior and an exterior surface along a length defined between a first end and a second end, and at least two openings positioned along the length and extending from the interior and through the exterior surface; and a filament including a first free end and a second free end and a length therebetween, the filament positioned relative to the sleeve member such that the free ends extend from the sleeve member at the first and second ends of the sleeve member, the filament being disposed inside the interior from the first end to a first opening, outside the sleeve member from the first opening to a second opening, and inside the interior from the second opening to the second end of the sleeve member.

Abstract: In one embodiment of the present invention, a fixation device including a sleeve member including an interior and an exterior surface along a length defined between a first end and a second end, and at least two openings positioned along the length and extending from the interior and through the exterior surface; and a filament including a first free end and a second free end and a length therebetween, the filament positioned relative to the sleeve member such that the free ends extend from the sleeve member at the first and second ends of the sleeve member, the filament being disposed inside the interior from the first end to a first opening, outside the sleeve member from the first opening to a second opening, and inside the interior from the second opening to the second end of the sleeve member.

Abstract: The present invention includes, in one embodiment, a method of forming a suture having various cross-sectional shapes, the method including the steps of braiding the suture such that the suture has a first cross-sectional shape along a length; holding a first end of the suture and holding the suture at a second position at a location in between the first end and a second end such that a first portion of the suture is defined between the first end and the second position; manipulating the first end relative to the second position to alter the first portion of the suture into an altered cross-sectional shape different from the first cross-sectional shape; and releasing the first end and the second position, wherein the step of manipulating is performed such that, upon release, the first portion maintains its manipulated shape.

Abstract: The present invention includes, in one embodiment, a method of forming a suture having various cross-sectional shapes, the method including the steps of braiding the suture such that the suture has a first cross-sectional shape along a length; holding a first end of the suture and holding the suture at a second position at a location in between the first end and a second end such that a first portion of the suture is defined between the first end and the second position; manipulating the first end relative to the second position to alter the first portion of the suture into an altered cross-sectional shape different from the first cross-sectional shape; and releasing the first end and the second position, wherein the step of manipulating is performed such that, upon release, the first portion maintains its manipulated shape.

Abstract: An inserter assembly for inserting anchors into bone includes a handle having a handle body. A first inserter is disposed within the handle body and is fixedly connected thereto. The first inserter has an insertion end configured to retain a first anchor for insertion thereof into bone. A second inserter is slidably disposed within the handle body and has an insertion end configured to retain a second anchor for insertion thereof into bone. A sleeve is slidably disposed within the handle body and is releasably connected to the second inserter.

Abstract: In one embodiment of the present invention, a fixation device including a sleeve member including an interior and an exterior surface along a length defined between a first end and a second end, and at least two openings positioned along the length and extending from the interior and through the exterior surface; and a filament including a first free end and a second free end and a length therebetween, the filament positioned relative to the sleeve member such that the free ends extend from the sleeve member at the first and second ends of the sleeve member, the filament being disposed inside the interior from the first end to a first opening, outside the sleeve member from the first opening to a second opening, and inside the interior from the second opening to the second end of the sleeve member.

Abstract: The present invention includes, in one embodiment, a method of forming a suture having various cross-sectional shapes, the method including the steps of braiding the suture such that the suture has a first cross-sectional shape along a length; holding a first end of the suture and holding the suture at a second position at a location in between the first end and a second end such that a first portion of the suture is defined between the first end and the second position; manipulating the first end relative to the second position to alter the first portion of the suture into an altered cross-sectional shape different from the first cross-sectional shape; and releasing the first end and the second position, wherein the step of manipulating is performed such that, upon release, the first portion maintains its manipulated shape.

Abstract: One embodiment of the present invention includes a filamentary fixation system including a sleeve formed of filamentary material including an interior and an exterior surface along a length defined between a first end and a second end, the sleeve having a coating adapted to allow for tissue ingrowth, and a filament formed of filamentary material including a first free end and a second free end, and a length therebetween, at least a portion of the filament positioned within the interior of the sleeve.

Abstract: The present invention includes, in one embodiment, a method of forming a suture having various cross-sectional shapes, the method including the steps of braiding the suture such that the suture has a first cross-sectional shape along a length; holding a first end of the suture and holding the suture at a second position at a location in between the first end and a second end such that a first portion of the suture is defined between the first end and the second position; manipulating the first end relative to the second position to alter the first portion of the suture into an altered cross-sectional shape different from the first cross-sectional shape; and releasing the first end and the second position, wherein the step of manipulating is performed such that, upon release, the first portion maintains its manipulated shape.

Abstract: A system for implanting an anchor into bone, the system comprising a curved cannulated guide for percutaneous insertion, having a proximal end and a distal end; a flexible drill insertable through the curved guide from the proximal end to the distal end, the flexible drill having a shaft having a flexible portion; and a flexible inserter for inserting a suture anchor into a bore at the anatomical site formed by the flexible drill, the flexible inserter having a shaft having a flexible portion, wherein the flexible portions of both the flexible drill and flexible inserter include a series of discrete, interlocking segments.

Abstract: One embodiment of the present invention includes a filamentary fixation system including a sleeve formed of filamentary material including an interior and an exterior surface along a length defined between a first end and a second end, the sleeve having a coating adapted to allow for tissue ingrowth, and a filament formed of filamentary material including a first free end and a second free end, and a length therebetween, at least a portion of the filament positioned within the interior of the sleeve.

Abstract: An inserter assembly for inserting anchors into bone includes a handle having a handle body. A first inserter is disposed within the handle body and is fixedly connected thereto. The first inserter has an insertion end configured to retain a first anchor for insertion thereof into bone. A second inserter is slidably disposed within the handle body and has an insertion end configured to retain a second anchor for insertion thereof into bone. A sleeve is slidably disposed within the handle body and is releasably connected to the second inserter.

Abstract: A method of tissue fixation, which includes inserting a sleeve into a bone hole. The sleeve includes first and second openings and a length of filament slidably disposed therethrough. The length of filament includes a first free end extending from the first opening of the sleeve and a loop-end extending from the second opening of the sleeve. The method also includes tensioning the loop-end and first free end to secure the sleeve in the bore hole, passing the first free end through tissue at a first location and passing the loop-end through tissue at a second location, and advancing the first free end through a loop defined by the loop-end.

Abstract: In one embodiment, the present invention is a method of preparing a bioactive filamentary fixation device in situ, including (a) providing a filamentary fixation device including a sleeve member and a filament; (b) providing a physiological solution; (c) providing bioactive material; (d) wetting the sleeve of the fixation device with the physiological solution to produce a wetted sleeve; and (e) applying the bioactive material to the wetted sleeve to coat the sleeve, thus producing a bioactive filamentary fixation device at the time of surgery in situ.

Abstract: A bone cutting device for forming an undercut in bone. The device includes a rotatable body having an inner surface and outer surface. The inner surface defines an aperture. The inner and outer surfaces are disposed opposite each other and define a sidewall. The sidewall includes a recess extending from the outer surface into the aperture. A cutting arm is cantilevered to the sidewall and disposed within the recess. The cutting arm includes a flexible depression extending into the aperture. An actuating member is longitudinally slidable within the aperture such that sliding the actuating member longitudinally interfaces with the flexible depression and pushes the cutting arm radially outwardly.

Abstract: In one embodiment, the present invention includes a fixation device including a cannulated body having a length and a pathway along at least a portion of the length and formed of a filamentary material, the body including at least one projection along its length. The present invention also includes various embodiments of securing such a device within a prepared hole in bone and for securing soft tissue to bone using such a device.

Abstract: In one embodiment of the present invention, a fixation device including a sleeve member including an interior and an exterior surface along a length defined between a first end and a second end, and at least two openings positioned along the length and extending from the interior and through the exterior surface; and a filament including a first free end and a second free end and a length therebetween, the filament positioned relative to the sleeve member such that the free ends extend from the sleeve member at the first and second ends of the sleeve member, the filament being disposed inside the interior from the first end to a first opening, outside the sleeve member from the first opening to a second opening, and inside the interior from the second opening to the second end of the sleeve member.