A retro guidewire reamer includes a cutting member, and a mechanism for moving the cutting member from a closed position to a deployed position in a single manual motion. Once a desired size of a bone tunnel is established, a surgeon uses the reamer to create a primary bone tunnel over a guidewire from the outside in. The surgeon retracts the guidewire, and activates the mechanism to deploy the cutting member within the bone joint to conform to the size of a tendon graft. The surgeon uses the deployed cutting member to create a counter bore through the bone in a retrograde manner. Once the counter bore is drilled, the surgeon activates the mechanism to close the cutting member, allowing the reamer to be withdrawn through the primary tunnel. The retro guidewire reamer can be used to provide more accurate bone tunnel placement during ligament reconstruction surgery.

An adjustable device for identifying the target location for, and placement of, a bone tunnel wherein the device is capable of measuring a total distance across a region of an anatomic structure. The device may be further configured to engage the anatomic structure at a target distance across the anatomic structure to identify the location for bone tunnel placement. A method for identifying the target location for, and placement of, a bone tunnel such that the method is capable of measuring a total distance across a region of an anatomic structure and capable of engaging the anatomic structure at a target distance across the anatomic structure.

An apparatus comprising: a medical tool moveable to a desired orientation relative to a bone region for implantation of a medical implant; and an electronic orientation sensor transitionable between a first location fixed relative to the bone region of the patient and a second location on the medical tool; wherein, at the first location, the orientation sensor is adapted to record a reference orientation of the bone region of the patient, and, at the second location, the orientation sensor is adapted to determine an orientation of the medical tool relative to the reference orientation, wherein recording the reference orientation comprises measuring a gravity vector relative to the orientation sensor.

A drill guide arm for providing guidance for placement of a bone tunnel, while protecting against trauma. The guide arm includes a first arm at a proximal end connected at an angle to a second arm, the second arm extending to a distal end. The angle can be within the range of 80-110. The second arm extends along a first axis. The guide arm also includes a distal tip extending at a second angle from the second arm at the distal end, and an indicator feature extending from the distal tip toward the first arm. The indicator feature extends along a second axis, the second axis being substantially parallel to the first axis. The guide arm can also include a shield feature of the distal tip. The shield feature has a width wider than the remainder of the distal tip.

A guide system and method for drilling through a bone and reattaching a tendon comprising a drill guide having a body section and a spike section, a locking rod, a suture passing guide, a suture passing needle, and suture loop; the body section comprising a locking rod ratchet gear and a locking rod tunnel adapted to receive the locking rod; the spike section comprising a hook arm terminating in a hole adapted to receive the suture passing needle and a spike adapted to engage a distal side of the bone; the locking rod comprising a sharp tip adapted to engage a proximal side of the bone, a suture passing guide tunnel adapted to receive the suture passing guide, and a plurality of outer ratchet teeth adapted to engage the locking rod ratchet gear; the suture passing guide comprising a suture passing needle tunnel adapted to receive the suture passing needle.

A surgical kit for tendon fixation on a bone comprises a working end for passing suture through a bone tunnel and a cannulated device for housing the suture within a channel to provide a dynamic suture fixation that yields a compressive force on the bone over the tendon fixation region.

Drill guides allow an implant to be partially inserted after the holes are drilled and before the drill guide has been removed from the surgical location.

A fixation device. At least one example embodiment is a bone anchor comprising: a proximal head; a bollard coupled to the proximal head; a first barb coupled to the bollard, the first barb extends outward a first distance measured perpendicularly from an anchor central axis, the first distance greater than half the transverse dimension of the bollard, and the first barb extends outward at a first radial from the anchor central axis; and a second barb coupled to the first barb, the second barb extends outward a second distance measured perpendicularly from the anchor central axis, the second distance greater than half the transverse dimension of the bollard, and the second barb extends outward at a second radial from the anchor central axis, the second radial at a second rotational orientation at least 36 angular degrees from the first radial.

A drill guide system provides a means of improved tunnel placement accuracy by allowing the drill guide to articulate to seat against the bone being drilled. The drill guide includes an articulating drill guide adapter constructed in four parts: a top cap, a thumbscrew, a lock tab, and a spring mechanism. The drill guide adapter is part of an aimer arm which mates with a handle on the proximal end and an aimer guide on the distal end. The drill guide adaptor allows the aimer guide to articulate relative to an irregular mating surface, allowing for increased area contact between the aimer guide template and bone. Examples of the drill guide adaptor also include a means for locking the aimer guide into place relative to the aimer arm.

A guide provides for placing a suture anchor into an outer rim of a glenoid cavity of a patient adjacent an edge of a glenoid labrum. The guide comprises an elongated guide tube having an axial lumen with a distal opening a rim engagement member pivotally attached to the elongated tube adjacent the distal opening. The rim engagement member has a first contact surface and a second contact surface each of which are distal of the guide tube and are separated from each other and disposed on opposite lateral sides of the guide tube whereby to allow placement of the contact member over the glenoid rim, with subsequent angular positioning of the guide tube and passage of an instrument down the lumen to the labrum.