Bone graft inserter device

A surgical tool in the form of a three piece bone graft inserter includes a pair of concentric cylinders having elongated apertures formed in the side walls of the cylinders to allow the interior of one of the cylinders to be loaded with the bone graft material, and a plunger that extends through both cylinders. Rotating one of the cylinders thereby &#8220;closes&#8221; &#8220;the apertures creating a closed cylinder filled with the graft material. The ends of the cylinders are inserted into the bone void and the plunger is advanced forward to move the graft material into the bone cavity.

BACKGROUND OF THE INVENTION

Various surgical bone insert tools are currently available to insert bone graft material within open fractures and large wounds within bones during orthopedic surgery to induce bone formation in fractures and fusions.

One method for delivering bone graft to a receptor site utilizing a hollow cylindrical cutter and a solid inner cylindrical plunger is found in U.S. Pat. No. 5,152,763 entitled Method for Grafting Bone .

A more recent method is found in U.S. Pat. No. 6,045,555 entitled Bone Graft Delivery System and Method . This patent discloses a hollow cylindrical cutter and a solid inner cylindrical plunger. The cutter has a cutting end and a grasping end, with the cutter having a cutting end being tapered to a sharp edge for cutting the bone graft from the donor site.

The use of bone graft insert materials in the form of thick putty-like demineralized bone, such as Grafton, which is a registered trademark of Osteotech Inc. for human bone processed into liquid gels and pastes for use in musculoskeletal surgery, impedes the use of such cylindrical insert tools because of the difficulty involved in loading the gels and pastes into the cylinders.

One purpose of the instant invention, accordingly, is to describe a simple effective means for loading the bone graft insert paste material into a cylindrical insert tool for use in bone graft insert surgery.

SUMMARY OF THE INVENTION

A surgical bone graft outer tool in the form of a three piece bone graft inserter includes a pair of concentric cylinders having elongated apertures formed in the side walls of the cylinders and a plunger. The bone graft material is introduced through the apertures then one of the cylinders is rotated to retain the graft material within the cylinders. The plunger is advanced to force the graft material through the cylinders to within the graft insert site.

DESCRIPTION OF THE PREFERRED EMBODIMENT

The bone graft inserter tool, hereafter inserter tool 10 is shown prior to assembly in FIG. 1 . The three basic components such as the outer cylinder 11 , carrier cylinder 12 and plunger 13 are fabricated from surgical steel for ease in sterilization as well as durability.

The outer cylinder 11 includes a thru-hole 15 extending from the flange 14 at the top end to the tapered opening 17 at the bottom end thereof. In accordance with the teachings of the invention, an elongated aperture 16 extends along the side of the outer cylinder for receiving the bone graft material in the manner to be discussed below in greater detail.

The carrier cylinder 12 also includes a thru-hole 18 extending from the flange 21 at the top end to the planar opening 20 at the bottom end thereof. A similar elongated aperture 21 extends along the side of the carrier cylinder and is co-extensive with the elongated aperture 16 along the outer cylinder 11 when the carrier cylinder 12 is positioned within the outer cylinder 11 is clearance relation.

The plunger 13 is in the form of a solid cylinder 22 that extends from the cap 23 at the top end to the planar end 24 at the bottom thereof. The plunger is positioned within the concentric outer and carrier cylinders after the bone graft material has been inserted therein.

As best seen by referring now to FIG. 2 , the inserter tool 10 is positioned for reception of the bone graft material with the carrier cylinder 12 within the outer cylinder 11 . The plunger 13 is omitted for purposes of clarity. The elongated side aperture 16 on the outer cylinder 11 remains in a fixed open position with the elongated side aperture 21 on the carrier cylinder 12 arranged in the open position for receiving the bone graft material within the carrier cylinder. It is noted that the flange 19 on the carrier cylinder 12 is aligned with the flange 14 on the outer cylinder 11 . When the carrier cylinder 13 is filled with the bone graft material 25 , ( FIG. 3 ) the flange 19 on the carrier cylinder is rotated in the indicated direction to move the elongated side aperture 21 on the carrier cylinder 12 out of alignment with the elongated side aperture 16 on the outer cylinder 11 .

In the closed position, as now shown in FIG. 3 , the elongated side aperture 21 on the carrier cylinder 12 out of alignment with the elongated side aperture 16 on the outer cylinder 11 such that the bone graft material 25 is now captured within the carrier cylinder 13 . The plunger 13 is next inserted within the central aperture 18 of the carrier cylinder 13 complete the assembly and to allow the dispensing of the bone graft material 25 out through the bottom openings 17 , 20 of the outer cylinder 11 and the carrier cylinder 12 by digital pressure applied to the plunger cap 23 .

What the inserter tool 10 filled with the bone graft material, the bottom openings 17 , 20 are positioned slightly within the opening in the bone cavity and the plunger is advanced to expel the bone graft material into the bone cavity.

A surgical bone graft material dispensing tool has herein been described having means for receiving the bone graft material without contamination and without the requirement of additional tools and the like.