Abstract: An instrument kit for performing a repair procedure on a meniscal tear in a knee for use in combination with a mechanical repair device is disclosed. The instrument kit includes at least one template including an elongate body defining X, Y and Z axes. The elongate body adapted for insertion in a knee of the patient to approximate a path to a meniscal tear within the knee. The elongate body has a length defining the X-axis. The instrument kit including a first template having a linear elongate body, a second template having a distal end portion which is offset in a direction of the Y-axis, and a third template having a distal end portion which is offset in a direction of the Z-axis.

Abstract: An orthopedic reamer for use in creating and sizing canals in a bone is disclosed. The orthopedic reamer includes a non-polymeric cutting portion having at least one cutting surface thereon and a polymeric body portion covering at least a portion of the cutting portion. The at least one cutting surface is not covered by the polymeric body portion.

Abstract: An orthopedic A/P cutting guide device, including a cut guide member, a support member and a positioning member for permitting both (i) rotational, and (ii) translational movement after the A/P cutting guide device has been attached to the distal femur by quick pins or other securing devices, is disclosed. Rotational movement may occur by loosening a knob thereby releasing the positioning member and the cut guide member from the support member, which may be fixed in position by the quick pins, and rotating the positioning member and the cut guide member together. Translational movement may occur by loosening a plurality of knobs thereby releasing the cut guide member from the support member and the positioning member, and moving the cut guide member anteriorly or posteriorly. After the device has been rotated and translated, the knobs may be tightened, thus securing the device from further movement.

Abstract: Systems for stabilizing the spine and facilitating placement of stabilization devices on the spine include one or more holding elements positionable in corresponding ones of one or more cannulated auxiliary elements of the stabilization device. The holding elements can be configured to manipulate and/or maintain alignment of the corresponding auxiliary element relative to the stabilization device. A driving tool engaged to the holding element facilitates remote manipulation. The systems can further be provided with blocking members engageable to the cannulated auxiliary elements to enhance engagement of the stabilization device with the spine and to facilitate revision surgery.

Abstract: This invention relates to implants formed from donor bone for use in lumbar interbody fusion procedures and instruments for performing such procedures. The implants are formed to include a concave surface formed from a portion of the medullary canal of a long bone. The concave surface defines a recess in the implant that serves as a depot for osteogenic material. Specific instruments for inserting the implants prepared according to this invention and for preparing the intervertebral space to receive the implants are also provided.

Abstract: A guide assembly for positioning one or more bone engaging fasteners in a bony segment includes at least one guide tube and an extension extending distally from a distal end of the at least one guide tube. The extension is contactable with at least one of the plate and the bony segment with a passage of the guide tube aligned with a bone fastener hole through the plate and the distal end of the guide tube spaced from the plate.

Abstract: A reamer especially well suited for use in minimally invasive hip replacement arthroplasty. The reamer is for preparation of a requisite concave surface in the patient's acetabulum suitable for the acetabular cup member of a hip prosthesis. The reamer comprises a plurality of raised edges, or cutting teeth, for cutting bone and cartilage, and a plurality of openings through which cut fragments of bone and cartilage enter the reamer body. The bone and cartilage fragments are contained within the reamer body and periodically removed so as not to contaminate the surgical site. The reamer according to certain aspects and embodiments of the present invention is easier to insert and withdraw though a minimally invasive incision in the patients body, and, also, effectively restricts bone fragments from escaping into the surgical wound. The improved reamer according to certain aspects and embodiments of the present invention is not limited to use in minimally invasive surgery.

Abstract: A surgical instrument includes a first device adapted to be connected to a fastener fixed to a first bone portion. A second device includes a first portion associated with the first device and a second portion for supporting a member which engages the fastener fixed to the first bone portion and secures a rod connected to the second bone portion to the fastener. The second portion is adapted for pressing the member against the rod. The first device has a part that prevents the second device from moving toward the fastener that is connected to the first device so that the member is rotated relative to the fastener but is not moved axially relative to the fastener in response to rotation of the second device.

Abstract: A locking intramedullary alignment jig for use in bone resection, especially for the proximal tibial has an axially extending intramedullary rod for insertion into the medullary canal of the tibia. A slidable anchoring block is mounted on the rod for movement along the rod in the axial direction, which on the tibia is the proximal-distal direction. The anchoring block has a pivot point at one end thereof and a tooth portion at a second end thereof. A first rotating body is pivotally coupled to the pivot point on the anchoring block for rotation about a first axis. The rotating body includes a toothed locking member for releasable locking engagement with the toothed portion the anchoring block. A second rotating body, including a bone resection guide is connected to the first rotating body. Movement of the first and second rotating bodies allow rotation of the resection guide in both the flexion-extension and varus-valgus directions.

Abstract: An orthopedic reamer assembly for minimally invasive surgery including a reamer and a driver. The driver includes a shaft with a distal end and a longitudinal axis; and a driver head connected to the distal end. The driver head is pivotable about an axis generally perpendicular to the longitudinal axis. The reamer is connected to the driver head.

Abstract: A method of finding the position of a mechanical axis running in the longitudinal direction through a limb that is rotatably supported by its first end in a center of rotation that is not fixed and is not accessible for the mechanical determination of coordinates, by means of an optical coordinate-measurement device with an indicator to detect measurement-point coordinates in one rotational position of the limb such that, for each rotational position, a multi-point indicator rigidly attached near the second end of the limb signals several measurement-point coordinates, and, from the sets of measurement-point coordinates detected in a plurality of rotational positions, at least one group is selected that can be assigned to the same site of the center of rotation, and the measurement-point-coordinate sets assigned to this site of the center of rotation are used to calculate the mechanical axis.

Abstract: An instrument is provided for use in orthopedic surgery, such as for reduction of spinal rods. In one embodiment, a shaft is pivotably connected to a plate with an aperture, and a sleeve is slidable over the shaft and plate. A base member can be provided for ease in handling the instrument, which may include a ratchet mechanism connected to the sleeve. The plate is moved so that its aperture is oriented to allow an orthopedic implant, such as a Schanz-type screw, to be inserted into the aperture. After insertion, the shaft is moved so as to pivot the plate so that the plate grips or holds the implant. The sleeve is then slid over the shaft, plate and implant in contact with an elongated member, such as a spinal rod, or other implanted device or tissue. Further sliding the sleeve forces the elongated member toward or past the implant.

Abstract: Apparatuses and methods for externally fixing and precisely adjusting fractures, such as fractures near the ankle, are disclosed. In one embodiment, an external fixation apparatus includes a first member attachable to a first bone segment through pins, a second member coupled to the first member through a lockable ball joint, wherein first and second ends of the second member may be translated transversely relative to a longitudinal axis of the second member, and a pin clamp coupled to and rotatable about the second member through a lockable joint and attachable to a second bone segment. The pin clamp and the second member may be releasably coupled.

Abstract: An expansion assembly expands a vertebral implant. The vertebral implant has an inner cylindrical assembly adapted for insertion into an outer cylindrical assembly having an outer wall. The vertebral implant is expandable along an implant axis defined by the outer and inner cylindrical assemblies. The expansion assembly comprises an axle having proximal and distal end portions and an axle axis defined between the proximal and distal end portions. The expansion assembly further comprises a gear arranged about the axle axis at the proximal end portion of the axle and adapted to rotate about the axle axis to cause the inner cylindrical assembly to expand the vertebral implant. The engagement assembly also comprising a first engaging portion adapted to engage the inner cylindrical assembly and a second engaging portion adapted to engage the gear externally of the outer wall of the outer cylindrical assembly.

Abstract: A device for resecting a bone to receive an implant comprising a resection guide and a cutting device. The resection guide is operable to be secured to a bone. The cutting device operable to cut the bone. The cutting device is received by the resection guide and directed to the bone by the resection guide. The resection guide restricts movement of the cutting device to form a resected portion within the bone, the resected portion at least substantially surrounded by a bone rim.

Abstract: An instrument for insertion and placement of dynamic spinal fixation plates is provided. In general, the instrument is a clip that holds the plate at its maximum extension for implantation.

Abstract: A method and apparatus for fixing a ligament in a bone tunnel by cross-pinning the ligament in the bone tunnel.

Abstract: A system for securing a graft within a bone includes a tubular cross pin having an interior surface bounding a passageway extending between a proximal end and an opposing distal end, the distal end terminating at a distal end face. A guide pin has an exterior surface extending between a proximal end and an opposing distal end, the exterior surface including an outwardly projecting shoulder. The guide pin is removably received within the passageway of the cross pin such that the distal end face of the cross pin biases against the shoulder and a proximal portion of the guide pin freely projects beyond the proximal end of the cross pin.

Abstract: A system and method for immobilizing adjacent spinous processes in accordance with the present invention can supplement primary fusion devices and methods by immobilizing spinous processes while bone from adjacent vertebral bodies grows together. The system requires less extensive surgical procedures than other common supplemental devices, and preferably does not require bone or ligament removal. One such system comprises three spacers positioned between spinous processes and adjustably connected with a plate positioned on either side of the spinous processes. Each plate includes grips, with each grip positioned adjacent to the spinous process, forming a clamp with a grip connected with the opposing plate.

Abstract: A vertebral implant assembly having a tubular body and a pair of endplate assemblies is installed between two vertebral endplates using an apparatus comprising an axle having a proximal end and a distal end, a set of gears connected to the proximal end of the axle, and an engager device connected to the set of gears and adapted to rotate the tubular body when the axle is rotated. As the tubular body is rotated, the vertebral implant assembly expands.