Intramedullary bone nail Field of the Invention
The present invention relates to an intramedullary bone prosthesis and more particularly to an intramedullary bone nail that allows the compression of adjacent bone pieces. Background Art
It is known to insert a bone nail into the intramedullary canal of a long bone for the purpose of approximating and holding adjacent bone pieces. The bone pieces may be adjacent pieces of a fractured bone or adjacent pieces of endogenous bone and a bone graft. Such bone nails typically comprise an elongate tubular body which may be inserted into the intramedullary canal and two or more screws, pins or the like that connect each of the adjacent bone pieces to the tubular body of the bone nail. Disclosure of the Invention A problem with conventional intramedullary nails is that the "play" in the placement of the screw in the holes in the nail is such that it is difficult, if not impossible, to ensure that the bone pieces are urged into contact. The present inventors have devised a mechanism enabling an intramedullary nail, or like prosthesis, to hold adjacent bone pieces in appropriate approximation and also in compression.
The present invention consists in an intramedullary bone prosthesis including an elongate tubular body having a longitudinal axis, an elongate slot extending through the tubular body transversely of the longitudinal axis, which slot can receive a bone engagement means extending transversely of the tubular body, and displacement means disposed within the tubular body to move the bone engagement means, extending through the slot, axially of the tubular body.
In a further aspect, the present invention consists in a surgical procedure for the compression of two adjacent pieces in a long bone comprising affixing one end of an intramedullaiy bone prosthesis according to this invention in contact with a first of the bone pieces, passing a bone engagement means through an elongate slot formed in the tubular body adjacent the other end of the intramedullary prosthesis and causing the displacement means in the tubular body to move the bone engagement means towards the one end of the intramedullary prosthesis and to cause the bone pieces to be urged into contact with one another.
The prosthesis and method according to this invention allows appropriate approximation of fracture fragments. Preferred embodiments will allow improved fracture union through the application of compression across the fracture site. These preferred embodiments will also improve the union in allograft surgery by improving the surface contact at the host- allograft interface. The application of such compression will increase the friction at the host-allograft interface and decrease the relative motion at that interface. This will increase the likelihood of union and decrease implant failure. The compression applied to the bone pieces may be maintained by leaving the prosthesis in-situ.
The intramedullary prosthesis is typically an intramedullary nail used for the approximation and compression of adjacent pieces of bone in a long bone. The adjacent pieces may be of endogenous bone or one may be endogenous bone and the other an allograft. In this situation a second bone engagement means, such as a screw, nail or the like, extending through a near size hole adjacent one end of the prosthesis, connects that end of the prosthesis to one of the bone pieces. A first bone engagement means, such as a screw, nail or the like, extends through a slot adjacent the other end of the prosthesis into the second piece of bone. The displacement means can then be adjusted to bring the bone pieces into apposition.
The intramedullary bone prosthesis may alternatively be a prosthesis having a function additional to the mere approximation of bone pieces. The prosthesis could be, for instance, a total hip replacement prosthesis or an arthrodesis prosthesis. In each case the one end of the prosthesis may be abutted against the end of a long bone, or an allograft annexed thereto, and the other end connected to the long bone by a bone engagement means, such as a screw, extending through a slot in a tubular body adjacent the other end of the prosthesis. In this case, the displacement means may be used to draw the prosthesis itself into contact with the bone or, alternatively the prosthesis may serve to draw an allograft into contact with the bone.
In a preferred embodiment of the invention the displacement means comprises an externally threaded plug disposed in the end of the tubular body which in turn is provided with a corresponding internal thread. The plug is adapted to, directly or indirectly, contact the bone engagement means extending through the slot. Rotation of the plug relative to the tubular body will cause the bone engagement means to move relative to the prosthesis.
While the use of a threaded plug is the simplest arrangement of displacement means other suitable arrangements could be used. A cam mechanism could be used which could be approached for adjustment transversely of the prosthesis rather than the axial approach required with the plug. It would also be possible to provide remotely actuable means such as a motor disposed within the lumen of the tube that could be actuated by remote control to adjust the force on the bone engagement means, such as a screw, nail or the like, disposed in the slot from time to time rather than just at the time of the placement of the prosthesis. In order to reduce the friction between the plug and the bone engagement means, which would both typically be formed of stainless steel, it is preferable to provide a low friction pad between them. This pad may comprise a simple disk of a low friction material, such as a synthetic plastics material, disposed between the plug and the bone engagement means. In an alternative arrangement, there may be a block of a suitable material, such as a synthetic plastics, slidably disposed within the lumen of the tubular body. The bone engagement means may be positioned in a near size hole in this block when it is extended through the slot. In this arrangement both the block and the bone engagement means are moved relative to the tubular body by actuation of the displacement means.
In those cases in which a bone engagement means, such as a screw, pin or the like, is used to connect the end of the prosthesis distal to the slot to a bone piece it may be desirable to position a suitable plug within the lumen of the tubular body. This plug may be of a suitable synthetic plastics material. The plug will either be provided with a near size hole to receive the screw, pin or the like or may be sufficiently soft that a screw, pin or the like may be driven through it. In this case the plug may be immovably disposed in the lumen of the tubular body.
When placing a prosthesis according to this invention the procedure is essentially similar to the procedure conventionally used for a similar, but non-compressive, prosthesis. When drilling the hole for the screw, pin or the like that is to extend through the slot the drilling jig should be set up to drill the hole so that it extends through the slot proximal to the end of the slot adjacent the displacement means. This then allows the maximum amount of travel for the screw, pin or the like relative to the prosthesis. In the case that the displacement means comprises a threaded plug in one end
of the tubular body of the prosthesis, adjustment of the position of the screw, pin or the like in the slot relative to the prosthesis, and thus the compressive force between the adjacent bone pieces is activated by inserting a tool down the medullary canal of the long bone and rotating the plug relative to the prosthesis. The tool is inserted into the medullary canal through the aperture made to insert the prosthesis therein. Brief Description of the Drawings
Hereinafter described by way of example only, a preferred embodiment of the present invention is described with reference to the accompanying drawings, in which:
Fig. 1 shows diagrammatically a longitudinal section through an intramedullary nail according to the present invention; and
Fig. 2 shows an end view of the intramedullary nail of Fig. 1. Best Mode of Carrying out the Invention The intramedullary nail 10 is formed of stainless steel or a similar inert metal and comprises a tubular body 11 having a proximal end 12 and a distal end 13. Adjacent the distal end 13 a block 14 of an ultra high molecular weight polyethylene (UHMWPE) is disposed within the lumen 15 of the tubular body 11. A transverse hole 16 extends through the tubular body 11 and the block 14 adjacent the distal end 13 of the tubular body 11. The hole 16 is sized to be just sufficient to receive a suitably sized bone screw 26. The inside surface of the proximal end 12 of the tubular body 11 is threaded and a stainless steel plug 17 having a complementary thread on its outer surface is disposed within the lumen 15 at the end 12 of the tubular body 11. The proximal end of the plug 17 is formed with a hexagonal recess 18 to receive a suitable tool to cause rotation of the plug 17 within the tubular body 11.
The tubular body 11 is formed on the distal side of the plug 17 with a pair of slots 19 on diametrically opposed sides to allow the insertion therethrough, in sliding arrangement, of a suitable bone screw 27. A block 21 of UHMWPE is slidably disposed in the lumen 15 of the tubular body 11 and has a diametric near-size hole 22 to receive the bone screw 27 extending through the slots 19. The block 21 is adapted to bear against the distal end of plug 17. In use the intramedullary nail 10 is used to hold two pieces 23 and
compressive force. The nail 10 is disposed within the medullary canal 25 of the bone through an aperture (not shown) formed surgically in one or other end of the bone. A jig (not shown) is used to guide a suitable drill to drill a hole through the bone piece 24 and, if it has not already been formed, through the block 14. A bone screw 26 is then inserted through the hole to connect the distal end 13 of the intramedullaiy nail 10 with the bone piece 24.
The jig is then used to guide a suitable drill to drill a hole through bone piece 23, slots 19 and. if required, block 21 to receive bone screw 27. The hole is drilled to extend through the proximal end of the slots 19. This screw 27 serves to slidably connect the bone piece 23 to the intramedullary nail 10.
The plug 17 may then be rotated, using a suitable tool inserted into hexagonal recess 18, relative to the tubular body 11 to screw the plug 17 towards the distal end 13. This forces the block 21, and screw 27, distally and applies a compressive force between bone pieces 23 and 24.
While this embodiment has been described using only a single screw at each end of the intramedullary nail it will be appreciated that two or more screws could be used at each end of the nail. It will be appreciated by persons skilled in the art that numerous variations and/or modifications may be made to the invention as shown in the specific embodiments without departing from the spirit or scope of the invention as broadly described. The present embodiments are. therefore, to be considered in all respects as illustrative and not restrictive.