Apparatus for the preparation of a femoral condyle

An apparatus for the preparation of a femoral condyle for the insertion of monocondylar knee implants. In one embodiment, at least one combined cutting and drilling jig can be fixed to the femoral condyle, when the knee is in flexion, at a desired spacing from a tibia plateau dependent on the thickness of a tibia implant to be inserted. The jig can include a concave side facing the femoral condyle and curved in accordance with a femur implant to be inserted. The jig can further include at least one fixing passage in a drilling section of the jig for a drill and for a fixing element, with the fixing passage being positioned and orientated with respect to a curved side in accordance with the femur implant to be inserted. The jig includes at least one slot in a cutting section of the jig for a cutting tool by which a cutting plane for a condylar cut is defined and having a coupling section for an aligning aid by means of which the cutting and drilling jig located at the desired spacing from the tibia plateau can be adjusted relative to the femoral condyle.

CROSS-REFERENCE TO RELATED APPLICATION

The invention relates to an apparatus for the preparation of a femoral condyle for the insertion of monocondylar knee implants.

When monocondylar, i.e. one-sided, knee prostheses are inserted, the condyles of the tibia and of the femur must be prepared in order to create contact surfaces on the bone which ensure a defined position of the tibia and femur implants of the knee prosthesis.

The contact surfaces are produced by cutting away bone material at the condyles. In this process, one endeavors to remove as little bone material as possible. Furthermore, care must be taken that the cut surfaces at the tibia and at the femur are correctly oriented relative to one another so that the tibia and femur implants can cooperate in a manner corresponding to the natural movement of the remaining, healthy part of the knee joint.

When, in the course of a knee operation, the tibia is prepared first and, in this process, a tibia plateau is produced onto which a tibia implant is later mounted, it is important on the preparation of the corresponding femoral condyle that the cut surfaces to be produced on the femoral condyle are correctly aligned relative to the cut surfaces produced at the tibia plateau.

It is the object of the invention to provide an apparatus of the initially named kind with which a femur implant can be implanted at the femur in a manner which is as simple and as reliable as possible in the correct position relative to the tibia with an accuracy which is as high as possible.

This object is satisfied by the features of claim1and in particular in that at least one combined cutting and drilling jig is provided which can be fixed to the femoral condyle, when the knee is in flexion, at a desired spacing from a tibia plateau dependent on the thickness of a tibia implant to be inserted, the jig having a concave side facing the femoral condyle and being curved in accordance with a femur implant to be inserted, having at least one fixing passage in a drilling section of the jig for a drill and for a fixing element, with the fixing passage being positioned and orientated with respect to the curved side in accordance with the femur implant to be inserted, having at least one slot for a cutting tool in a cutting section of the jig by which a cutting plane for a condylar cut is defined and having a coupling section for an aligning aid by means of which the cutting and drilling jig located at the desired spacing from the tibia plateau can be adjusted relative to the femoral condyle.

A multifunctional instrument is created with the combined cutting and drilling jig in accordance with the invention with which, on the preparation of the femoral condyle, the femur implant to be implanted on it is simulated insofar as the concave side of the jig is curved in accordance with the femur implant and the fixing passage of the jig likewise corresponds to the femur implant with respect to the position and the orientation relative to the curved side. The cuts and bores to be carried out by means of the cutting and drilling jig in accordance with the invention are consequently ideally matched to the actual femur implant, and indeed also with respect to the position and to the orientation relative to the tibia plateau, since—in accordance with the invention—the cuts and bores can be carried out at the correct desired spacing from the tibia plateau and, moreover, an additional adjustment possibility exists relative to the femoral condyle by the coupling section provided for the alignment aid. This additional adjustment possibility permits a particularly exact alignment of the combined cutting and drilling jig in dependence on the respective anatomical circumstances.

Advantageous embodiments of the invention are recited in the dependent claims, in the description and in the drawing.

At least one coupling passage formed in the drilling section of the jig and extending substantially perpendicular to the fixing passage can be provided as a coupling section. A lateral coupling of the alignment aid is hereby made possible.

In a particularly preferred embodiment, the cutting and drilling jig can be coupled to a spreading device by means of which a desired spacing can be set between the femoral condyle and an oppositely disposed tibia plateau.

By means of a such a spreading device, by spreading open the knee, i.e. by enlarging the spacing between the femur and the tibia, the femur and the tibia can be brought into their natural relative position during the knee operation, with this natural relative position being able to be determined by the surgeon with reference to the natural tension of the ligaments. The spreading device is preferably made such that the cutting and drilling jig in accordance with the invention can be coupled to the spreading device such that the cutting and drilling jig is vertically adjustable relative to the spreading device, and indeed with the knee spread open by means of the spreading device, i.e. with a set desired spacing between the tibia and the femur.

The spreading device itself is not the subject of the present invention so that details with respect to it are not considered more closely in the following.

In a further embodiment of the invention, the cutting section of the cutting and drilling jig is simultaneously made as a slide attachment shoe which can be coupled to the spreading device and via which the cutting and drilling jig is adjustable in a compulsorily guided manner at the spreading device.

Provision can furthermore be made for the cutting and drilling jig to be provided with, in addition to the fixing passage, a positioning passage which is formed in the drilling section of the jig and via which the cutting and drilling jig is positionable relative to the femoral condyle by means of a positioning pin before the fixing to the femoral condyle taking place via the fixing passage.

In a further embodiment of the invention, an additional cutting jig is provided to which the cutting and drilling jig can be coupled and with which, when the knee is in flexion, a further condylar cut can be fixed which extends in a curved manner between two planar cut surfaces previously made at the femoral condyle of which the one cut surface was made by means of the cutting section of the combined cutting and drilling jig and the other cut surface was made when the knee was in extension. The two planar cut surfaces preferably run at least substantially perpendicular to one another.

Provision is furthermore preferably made for the course of the curved side of the combined cutting and drilling jig to be able to be mapped at least regionally on the femoral condyle by means of the additional cutting jig. Since the cutting and drilling jig is shaped at its curved side in accordance with the actual femur implant, the femoral condyle can be precisely matched to the corresponding side of the femur implant by the cooperation of the cutting and drilling jig with the additional cutting jig.

The additional cutting jig can include a disk cam with a convex guide surface along which a cutting tool is guidable and whose extent corresponds to the curved side of the combined cutting and drilling jig.

Provision can furthermore be made in accordance with the invention for the additional cutting jig to be oriented with respect to the cutting and drilling jig in the state coupled to the cutting and drilling jig fixed to the femoral condyle such that the guide surface of the additional cutting jig and the curved side of the cutting and drilling jig are only translatorily offset toward one another.

The additional cutting jig can furthermore be made such that it can like-wise be fixed to the femoral condyle in the state coupled to the cutting and drilling jig fixed to the femoral condyle.

It is furthermore proposed in accordance with the invention that the additional cutting jig is provided with at least one fixing passage, and preferably a plurality of fixing passages, which extend substantially perpendicular to the fixing passage of the combined cutting and drilling jig in the state coupled to the combined cutting and drilling jig.

In accordance with a further improved embodiment of the invention, the guide surface is adjustable relative to the femoral condyle with the additional cutting jig fixed to the femoral condyle. This adjustability of the additional cutting jig makes it possible, as required, to carry out a last re-adjustment of the guide surface before the further condylar cut is made.

The additional cutting jig can include a base section which can be fixed to the femoral condyle and to which the disk cam is adjustably attached with the base section fixed to the femoral condyle for the alignment of the guide surface formed at the cam disk with a condylar cut which was previously carried out, when the knee is in extension, at a desired spacing from the tibia plateau dependent on the thickness of a tibia implant to be inserted.

In this process, the disk cam can be adjustable relative to the base section fixed to the femoral condyle such that the vertex of the guide surface formed at the cam disk is disposed in the plane defined by the condylar cut.

It is furthermore proposed in accordance with the invention that the coupling section of the combined cutting and drilling jig provided for the alignment aid is simultaneously made for coupling to the additional cutting jig.

Provision is made in accordance with a further embodiment of the invention for a separate coupling device to be provided for the coupling of the additional cutting jig to the combined cutting and drilling jig at which the additional cutting jig can be fixed and with which the additional cutting jig is adjustable, in particular linearly displaceable, relative to the combined cutting and drilling jig in the fixed state.

The coupling device can include a clamping apparatus by means of which the additional cutting jig can be fixingly clamped to the coupling device.

Furthermore, the coupling device is preferably made such that it can be removed when both the combined cutting and drilling jig and the additional cutting jig are fixed to the femoral condyle.

Both the combined cutting and drilling jig and the additional cutting jig are preferably each provided in different sizes which correspond to differently sized femur implants. Consequently, in dependence on the size of the femur implant selected in accordance with the surgery plan, the respective piece matched size-wise to the femur implant to be inserted is selected from the set of differently sized cutting and drilling jigs and from the set of differently sized additional cutting jigs, whereby a precise preparation of the femoral condyle for the insertion of the femur implant is ensured.

Before constructive details of the apparatus in accordance with the invention are considered with reference toFIGS. 8 to 10, that part of a knee operation should first be explained with reference toFIGS. 1 to 7and11in which the apparatus in accordance with the invention is used.

The operation in which the apparatus in accordance with the invention is used in accordance with the embodiment shown in the Figures is a uni-compartmental operation in which the tibial condyle and the femoral condyle are prepared either in the lateral compartment or in the medial compartment for insertion of a tibia implant or of a femur implant.

The starting point for that part of the operation in which the apparatus in accordance with the invention is used, is a tibia plateau which is established by two bone cuts extending perpendicular to one another and onto which a tibia implant provided in accordance with the surgery plan can be mounted as soon as the oppositely lying femoral condyle has also been prepared with the aid of the apparatus in accordance with the invention for the fixing of the corresponding femur implant.

The set of instruments in accordance with the invention includes, in accordance with the embodiment described in the following, a combined cutting and drilling jig45which is made in one piece and which includes a drilling section41of the jig and a cutting section37of the jig.

Subsequently to the establishing of the tibia plateau, which takes place with the knee in extension, a first condylar cut39extending parallel to the tibia plateau is first carried out with the knee likewise in extension. This is done by means of a spreading device11which is also used in conjunction with the combined cutting and drilling jig45in accordance with the invention (cf.FIG. 1). Instead of the cutting and drilling jig45in accordance with the invention, another functional attachment is coupled to the spreading device11to carry out the first condylar cut39when the knee is in extension, said functional attachment including a cutting jig by which the cutting plane for the first condylar cut39is defined.

The knee is spread open, i.e. the spacing between the tibia14and the femur12is increased, with the spreading device11until the femur12and the tibia14have been brought into their natural relative position which the surgeon can determine with reference to the natural tension of the ligaments. It is hereby ensured that the first femoral condylar cut39is carried out at the right height above the tibia plateau.

It is accordingly ensured by the spreading device11, when the knee is in flexion in accordance withFIGS. 1 and 2, that the tibia14and the femur12adopt their correct relative positions to one another and thus the cutting and drilling jig45, which is releasably couplable to a functional attachment13attached in a vertically adjustable manner to the spreading device11can be brought into a desired spacing from the tibia plateau, which can be read off at the spreading device11, on the correct relative position between the femur12and the tibia14.

The spreading device11includes an upper part19with a plate-shaped spreading tongue29and a lower part17with a likewise plate-shaped spreading tongue27. The femoral condyle can be pressed away from the tibia plateau by means of the two spreading tongues27,29extending parallel to one another in that the upper part19is raised with respect to the lower part17by means of an actuation member21formed as an adjustable screw.

After the cutting and drilling jig45in accordance with the invention has been brought into the correct height above the tibia plateau by adjusting the functional attachment13relative to the spreading device11subsequent to the spreading open of the knee, the functional attachment13is fixed to the spreading device11by means of a fixing device49. The cutting and drilling jig45displaceably guided on a head section of the functional attachment13is thereupon pushed toward and onto the femoral condyle.

Before the cutting and drilling jig45is fixed to the femoral condyle, it is aligned relative to the femur12by means of an alignment aid15(cf.FIG. 2). For this purpose, the jig45can be rotated together with the spreading device11by means of the alignment aid15about an axis extending substantially perpendicular to the tibia plateau. It is moreover possible to displace the jig45together with the spreading device11parallel to the tibia plateau.

The alignment can also take place visually in that a 90° angle to an abutment metal sheet (e.g. to the metal sheet99shown inFIG. 7aand inFIG. 11, which is used for another purpose inFIG. 7a) inserted into the slot39is set by the drilling section41: of the jig. A further alignment possibility in accordance withFIG. 11consists of inserting into the coupling passages73of the drilling section41of the jig a 90° angle plate100which is provided with pins101, in which is cut-out in the corner facing the knee during use and which makes a control of the gap to the abutment metal sheet99for parallelism relatively simple.

The alignment aid15, which includes a multi-part linkage with an adjustment rod16alignable at the femur12, can be inserted laterally into two coupling passages73formed in the drilling section41of the jig45and together forming a coupling section23of the jig45.

Subsequently, the correctly aligned jig45is positioned at the femoral condyle by means of a positioning pin59(cf.FIG. 3) guided through a positioning passage of the jig45, whereupon bores for fixing elements61,63which are provided in the form of bone screws and by means of which the jig45is secured to the femoral condyle are established in the femoral condyle via fixing passages formed in the jig45.

The spreading device11is then removed and a second condylar cut43(cf.FIG. 4) is carried out by means of a cutting tool in the form of a saw blade55guided through a slot57formed in the cutting section37of the jig, said second condylar cut extending substantially parallel to the tibia plateau and thus substantially perpendicular to the first condylar cut39.

An additional cutting jig81, which serves to carry out a further condylar cut extending in accordance with the curved side of the jig45facing the femoral condyle, is next coupled to the jig45, which is still fixed to the femoral condyle, via a separate coupling device93(cf.FIGS. 4 and 5).

For this purpose, the additional cutting jig81is clamped to the coupling device93by means of a clamping device95of the coupling device93and is subsequently coupled to the jig45via the coupling device93in a defined position relative to the jig45in that guide pins97of the coupling device93are inserted from the side into the already mentioned coupling passages73also provided for coupling to the alignment aid15(cf.FIG. 2).

The defined relative position mentioned above is characterized in that a guide surface87of the cutting jig81provided for a cutting tool is oriented with respect to the curve side of the jig45in the state coupled to the jig45via the coupling device93such that the curved side of the jig45and the guide surface87are only offset to one another translatorily. Consequently, the extent of the curved side of the jig45can be transmitted to the femoral condyle via the guide surface87in that a cutting tool is moved along the guide surface87.

Before the mentioned further condylar cut is carried out in this manner, the additional cutting jig81is likewise fixed to the femoral condyle.FIG. 5shows how the femoral condyle is pre-drilled by means of a drill25via fixing passages formed for this purpose in the cutting jig81and extending perpendicular to the fixing passages of the jig45in the state coupled to the jig45.FIGS. 6,7aand7bshow the additional cutting jig81in the state fixed to the femoral condyle by means of fixing pins90inserted through the fixing passages into the femoral condyle.

The correct position of the additional cutting jig81relative to the femoral condyle is thus ensured by the likewise correctly positioned and aligned cutting and drilling jig45.

The coupling device93is subsequently removed, as is indicated inFIG. 6. The combined cutting and drilling jig45is then also removed from the femoral condyle.

Before the further condylar cut is carried out with the aid of the guide surface87of the cutting jig81, in accordance withFIG. 7a, the guide surface87is adjusted relative to the femoral condyle with the aid of a planar abutment metal sheet99and of an adjustment tool82until the vertex of the convex guide surface87lies in the plane defined by the first condylar cut39. For this purpose, the abutment metal sheet99is inserted into the first condylar cut39, whereby the cut surface of the first condylar cut39is extended and thus an abutment is made available for the guide surface39.

The adjustability of the guide surface87is given in that the cutting jig81is made in multiple parts and includes a disk cam85, at which the guide surface87is formed, and a base section91which is provided with the fixing passages for the fixing pins90and via which the cutting jig81is fixed to the femoral condyle.

The setting tool82serves for the actuation of an adjustable screw which connects the disk cam85and the base section91to one another and whose rotational movement effected by means of the setting tool82results in a relative movement between the cam disk85and the base section91, whereby the guide surface87is moved away from or toward the base section91.

When the vertex of the guide surface87lies in the plane of the first cut surface39, it is ensured that the femur implant to be inserted is located at the right spacing from the tibia implant to be inserted in every position of the knee joint.

FIG. 7bshows how the curved further condylar cut is carried out by means of a cutting tool in the form of a saw blade55guided along the guide surface87, whereby a curved condylar cut surface83is produced between the two previously established condylar cut surfaces39,43, whose extent corresponds to the curvature of the curved side of the cutting and drilling jig45and thus to the corresponding side of the femur implant to be inserted.

InFIGS. 7aand7b, the bores62,64can be recognized which are formed in the femoral condyle in connection with the fixing of the combined cutting and drilling jig45and into which, on the basis of the forming in accordance with the invention of the drilling section41of the jig45in accordance with the femur implant to be inserted, the former's spigots can be inserted.

After the curved condylar cut83has been carried out, the additional cutting jig81is removed from the femoral condyle. The femur implant selected in accordance with the surgery plan can then—optionally after carrying out further preparation steps which should not be considered in more detail here—be fixed to the femoral condyle prepared by means of the apparatus in accordance with the invention.

In accordance withFIG. 8, the combined cutting and drilling jig45provided in different sizes corresponding to a set of existing femur implants is formed in the lower region as a cutting jig37provided with a slot57for a saw blade and in the upper region as a drilling jig41which is provided with two fixing passages69and through which in each case a drill can be guided for the pre-drilling of the bone and subsequently a fixing element61,63(cf.FIG. 3), in particular a bone screw, can be guided to fix the jig45to the femoral condyle.

As already mentioned above, the jig45corresponds with respect to the curvature to its concave side71facing the femoral condyle during the operation and with respect to the position and to the orientation of the fixing passages69with regard to the curved side71to a femur implant of the same size. In this respect, the femur implant to be inserted is simulated by means of the jig45in the operation.

At its upper end, the jig45is provided with a positioning passage75through which the positioning pin59(cf. e.g.FIG. 3) is guided to hold the jig45at the femoral condyle, while the bores62,64for the fixing screws61,63or for the spigots of the femur implant to be inserted are carried out via the fixing passages69in the femoral condyle.

Furthermore, the jig45is provided in the region between the two fixing passages69with coupling passages73which extend transversely to the fixing passages69and which together form the coupling section23of the drilling section41of the jig.

The cutting section37of the jig45is simultaneously made as a slide attachment shoe with which the jig45can be attached to the functional attachment13of the spreading device11(cf.FIG. 1) and can be displaced along the head section of the functional attachment13.

The separate coupling device93shown inFIG. 9includes two guide pins97which extend in parallel and are fixedly connected to an outlier65which extends perpendicular to the guide pins97and which has, at its one end, an abutment section98projecting parallel to the guide pins97. The spacing of the two guide pins97corresponds to the spacing of the coupling passages73formed in the cutting and drilling jig45in accordance with the invention (cf.FIG. 8).

The additional cutting jig81, which is explained in more detail in the following in connection withFIG. 10, can be clamped in a defined position relative to the coupling device93between the abutment section98and the free end of a clamping pad96which has a handle section94and is a component of a clamping apparatus95of the coupling device93. For this purpose, the clamping pad96is made as a clamping screw which is rotatable via the handle section94and cooperates with the guide pins97via a thread.

For the handling of the coupling device93on the connection with and on the releasing from the cutting and drilling jig45, the surgeon can hold the coupling device93with the one hand at a radially extended holding end67of the one guide pin97and can actuate the clamping apparatus95via the handle section94with the other hand.

In accordance withFIG. 10, the additional cutting jig81provided in accordance with the cutting and drilling jig45in different sizes corresponding to the existing femur implant sizes includes a base section91which has three fixing passages89and relative to which a disk cam85provided with the convex guide surface87is adjustable. The disk cam85is compulsorily guided at the base section91via spigots88adjustably supported in corresponding passages of the base section91such that only a straight-line relative movement is possible between the base section91and the disk cam85.

The adjustment of the disk cam85takes place by means of an adjustable screw84which cooperates via a shaft provided with an external thread with an internal thread which is formed in a further passage of the base section91. The ring-shaped head of the adjustable screw84is held without clearance in the adjustment direction at the disk cam85between the rear side of the disk cam85and a spring element86formed as a spring washer. The spring washer86is supported at a ring-shaped support element92which is fixedly connected to the disk cam85.

The adjustable screw84is screwed into or out of the passage of the base section91provided with the internal thread by means of the setting tool shown inFIG. 7aand the disk cam85is in this manner adjusted relative to the base section91in the direction pre-determined by the passages of the base section91receiving the spigot88or the spigots88.

As already mentioned, the extent of the convex guide surface87of the disk cam85corresponds to the concavely curved side71of the cutting and drilling jig45(cf.FIG. 8) and thus to the corresponding side of a femur implant of the same size to be inserted.

The free end of the clamping pad96of the coupling device93(cf.FIG. 9) engages, to clamp the additional cutting jig81, at the opening which is formed in the guide surface87and via which the adjustable screw84is accessible. For this purpose, the free end of the clamping pad96is provided with a rounding.

REFERENCE SYMBOL LIST