WO1987002883A1

WO1987002883A1 - Apparatus for fitting a knee endo prosthesis

Info

Publication number: WO1987002883A1
Application number: PCT/FR1986/000384
Authority: WO
Inventors: Jean Manuel Aubaniac
Original assignee: Jean Manuel Aubaniac
Priority date: 1985-11-15
Filing date: 1986-11-13
Publication date: 1987-05-21
Also published as: AU6624586A; EP0245411A1; FR2590159A1

Abstract

Apparatus for fitting knee prosthesis particularly of the internal and/or external single-compartment, internal or external trochleo-condylar type. The object of the invention relates to the technical field of medical sciences. The apparatus according to the invention comprises in combination a tibial device shaped to make the tibial cuttings at 90o and, for each knee, the apparatus also comprises, on the one hand, a femural sighting device (1-2) and a tibial sighting device (8-9-10) used in a fully extended state of the knee, and on the other hand, a condylar cutting template and a trochlear cutting template, positioned fixed at 90o with respect to the knee.

Description

Apparatus for the installation of a knee endoprosthesis.

The object of the invention relates to the technical sector of medical sciences.

Apparatuses are known for fitting knee prostheses. In particular, mention may be made of Patent Application no. 85.13851, of which the Applicant is also the holder. The combined means of implementation described in this type of apparatus, apply to fatty prostheses such as monobloc trachlea-bicondylar prostheses.

On the other hand, for mono-compartmental prostheses internal to the external, for bicompartmental prostheses, that is to say simultaneous fitting of a mono-internal prosthesis and a mono-external prosthesis, and for trochleocondylar prostheses internal to external, no ancillary equipment is planned. We therefore operate by trial and error.

It is recalled that for the mechanics of the knee, the following axes are to be considered: - the lowered vertical of the center of gravity of the body which crosses the middle of the point of support on the ground, that is to say the middle of the clamp bimaleolar;

- the mechanical axis of the lower limb which extends from the center of the femoral head to the middle of the ankle and which normally crosses the knee at the level of the tibial spines and the intercondylar notch;

- the anatomical axis of the tibia which merges with the mechanical a ete and the anatomical axis of the femur which forms an angle of about 6 ° with the mechanical axis. Similarly, it appeared necessary to take into account three angles since the mechanical axis projects on or outside the tibial spine. These three angles are the physiological angular deviation, the overall angular deviation, the corrected angular deviation. The problem being thus posed, the invention was fixed The aim is to develop an apparatus which makes it possible to comply with the following standards depending on the type of prosthesis to be fitted:

- in genus varus, a mono-internal prosthesis must be put with an overall angular deviation of 0 °, that is to say that the angle of the mechanical axis of the femur and the mechanical axis of the tibia must be no ;

- in genu valgus, a mono-external prosthesis must be put with an angular deviation corrected by 0 ° taking into account the physiological angle which is arbitrarily fixed at 3 ° in women and 2 ° in men;

- a two-compartment prosthesis must be fitted with a corrected angular deviation of 0º;

- an internal trochleobicondylar prosthesis must be put with an overall angular deviation of 0 °, while an external trochleo-condylar must be put with a corrected angular deviation of 0 °.

To achieve this goal, the apparatus is remarkable in that it essentially comprises, in combination: - a tibial device,

- two femoral sights (right and left knees),

- two tibial sights (right and left knees) each equipped with gauge blocks of variable thicknesses,

- two templates for condylar cuts (right and left knees) each fitted with shims of variable thickness,

- two templates for trochlear cuts (right internal trochleocondyle and left external trochleo condyle).

The invention is sκposées below in more detail using the drawings which show only one embodiment.

Figure 1 is a front view showing the tracing of landmarks and axes on the knee goniometry.

Figure 2 is a perspective view of the femoral viewfinder _. Figure 3 is a side view of the femoral viewfinder.

Figure 4 is a perspective view of the tibial viewfinder.

Figure 5 is a side view in section gone ais of the tibial viewfinder.

Figure 6 is a plan view, schematic, showing the use of the femoral and tibial sights in knee extension position.

Figure 7 is a perspective view of the condylar cut template.

Figure 8 is a side view of the condylar cut template.

Figure 9 is a perspective view of the trochlean section template. Figure 10 is a side view of the trochlean section template.

In order to make the object of the invention more concrete, it is now described in a nonlimiting manner with reference to the exemplary embodiments of the drawings. It is recalled that it is first of all necessary to trace on the goniometry of the knee the following benchmarks and axas as shown in FIG. 1.

(A) is the middle of the bimaleolar forceps,

(B) is the middle of the tibial spines, (D) is the center of the intercondylar notch, (F) is the center of the femoral head,

(C) is the middle of the lower part of the femoral shaft,

(FA) is the mechanical axis of the lower limb, (FD) is the mechanical axis of the femur, (AB) is the mechanical axis of the tibia.

The right (a) symbolizes the tibial cuts which are made at 90 ° relative to the mechanical axis and at 7 ° posterior inclination to respect the anatomy. Catte cut at 90 ° can be done in an advantageous way with the device tibial described in Patent Application No. 85.13851 and which essentially comprises in combination, a vise, an articulated connection and a cutting plane guide of the tibia.

The at the tibial cuts being made, the knee is put in full extension and one used, initially, the femoral sight and the tibial sight.

The femoral viewfinder (Figures 2 and 3) comprises a body (1) with a rectilinear support part (1a) and a horizontal range (1b) graduated angularly every one degree, from the ladita rectilinear part. Axially to the rectilinear part, The body (1) is equipped with a boss (le), in which is mounted transversely an endless screw (2) with double inverted screw pitch (2a) and (2b). This screw is actuated by a thumbwheel (3) and is engaged in two vertical flanges (4) and (5) equidistant from the boss (1e) and cooperating in free sliding with a guide rod (6) that has said boss (1e) . It is therefore seen that an acting in one direction or the other on the wheel (3), an operates the approximation or the axial spacing of the flanges (4) and (5) intended to cooperate with the tibia. The body (1) has, in alignment with the rectilinear part (1a) and at the level of the boss (1e), a hole (1d) for the engagement of a fixing member cooperating with the middle of the lower part of the diaphysis. femoral given automatically by the double thread (2a) - (2b). The rectilinear part (1a) presented in overflow from its dassous face a vertical branch (1e) parked at the end for the passage of a fixing member located in a plane orthogonal to the previous one and corresponding to the center of the intercondylar notch (D ). The brancha (1e) can be removable The tibial viewfinder illustrated in Figures 4 and 5, includes a support sole (7) in which is mounted for free sliding an ambasë (3)) secured to a vertical branch (8a) which receives an end , with libra articulation, an aiming rod (9) which extends in a plane orthogonal to the ladita base. The aimed rod (9) is fixed perpendicularly to a branch (9a) terminated by a yoke (9b) articulated at the free end of the vertical branch (8a) of the base (8). This rod (9) can therefore be positioned indifferently, either to the left or to the right of the branch (8a). Importantly, the sole (7) is capable of receiving perpendicularly to its base, in a removable manner, standard calas (10) of predetermined variable thickness. These wedges (10) have two parallel flat bearing faces (10a), with a straight edge (10b) to correspond to the tibial spines and a profiled edge (10c) to correspond to the internal or axtarne profile of the tibial compartments. Note that the right internal profiles in the holds are the left external profiles and vice versa.

The thickness (e) of wedge cases (10) is equal to the thickness of the tibial plates (that is to say the thickness of the metal base plus the thickness of the polyethylene support block), plus the thickness of the support surface of the monocompartmental or trochleocondylar prosthesis.

As an indication, the gauge blocks are eight in number: four straight and four left of 11, 13, 15 and 17 mm.

Thus defined, this tibial sight is intended to cooperate closely with the femoral sight as shown in FIG. 6.

After making the tibial cuts, the knee being extended, the femoral viewfinder is positioned by engaging the two flanges (4) and (5) on both sides of the femur. By acting on the moietta (3), the flanges which come in the clamping position on the femur are brought together, thus automatically determining, by the double qas of inverted screw, the middle (C) of the lower part of the femoral diaphysis with 6 cm from point (D). The viewfinder is then fixed in this position in combination with the vertical branch (1a) fixed to the center of the intercondylar notch. On the radio, we calculate the angle C, D and F corresponding to the mechanical axis of the femur. The tibial viewfinder is positioned, the gauge block (10) resting on the cut surface of the ti bia while the aiming rod (9) is in abutment on the rectilinear part (1a) of the viewfinder (1) and on the angularly graduated range (1b), in correspondence with a graduation.

To have the number of desired degrees determined from the radiography, it suffices to vary the thickness of the gauge block (10) to concomitantly move the aiming rod to the desired gradLiation.

It therefore follows that when we have reached the desired correction on the preoperative geniometric calculations, we know exactly the thickness of the polyethylene support block to be put in place. Indeed, knowing the thickness of the gauge block (10) put in place, it suffices to subtract the thickness of the bearing surface of the femoral prosthesis.

If the dimensions are determined, the knee is put at 90 ° of flexion and the condylar cutting template illustrated in FIGS. 7 at 8 is used. The femoral visor remains in place. This condylar cutting template is used for the placement of internal or external mono-compartment prostheses.

This device comprises a horizontal block (11) which acts as a llama guide for the condylar cut, by means of a transverse slot (11a). This block (11) is mounted at the end of a grip handle (12) inclined about 30 ° relative to the horizontal plane. The underside of the block (11) is arranged to receive, in a removable manner, gauge blocks (13) of predetermined variable thickness corresponding to the different thicknesses provided for the wedges (10), namely: 11, 13, 15 and 17 mm.

After positioning, the shim (13) is located in a horizontal plane parallel to the plane of the block (11). At this stage of the operation, the wedge used is the one whose thickness corresponds to the thickness of the cala (10) determined with the tibial sight.

Importantly, the guide-llama slot (11a) is located at a distance (x) from the face da above the selected tibial wedge (13). This distance (x) corresponds to the thickness of the posterior part of the condylar prostheses. Likewise, the block (11) has an overhanging lateral edge, on the side of the wedge (13), a vertical and orhogonal rod (11b). This rod (11b) is therefore located in a plane strictly perpendicular to the gauge block (13) and is intended to come into abutment against part of the femoral viewfinder in order to be at 90 ° flexion on said sight, the wedge (13 ), of thickness chosen as indicated, being placed on the 90 ° cut surface of the tibia. A saw blade engaged in the slot (11a) of the block

(11) cuts the posterior part of the condyles. We can then place the tray resting on the condylar resection and implant the prosthesis.

For the implantation of the one-piece internal-external trochleocondylar prostheses, the trochlear cutting template illustrated in FIGS. 9 and 10 is used, after having carried out the condylar cutting as indicated above. The knee is always in the 90 ° flexion position.

This device comprises a horizontal block (14) which acts as an orthogonal cutting blade guide by means of fentas (14a) established from the transverse faces of said block. The underside of the block (14) has, in overflow and offset from its vertical median axis, an orthogonal support volume (15) dastiné to be applied to the resected condylar surface. This volume (15) is integral with an inclined grip handle (16) and present, in a manner parallel to the horizontal cutting block (14), a gauge block (17) tooth the thickness corresponds to the current thickness prostheses.

This cala (17) is applied to the wedge (13) whose thickness was previously determined. The entire device is held by means, for example, of two wicks engaged in holes (13a) in the volume (15). Note that the block (14) presented vertically at superposition and along its median axis, three holes (14b) for the passage of a pin to choose one of the three sizes of prostheses in the case obviously where prostheses exist in three sizes. The slots (14a) are therefore three in number and established on each side of the holes (14b), in a corresponding manner. The saw blade is engaged in the slot (14a) determined to perform the trochlear cut parallel to the axis of the femoral shaft.

The condylar and trochlear cut templates as well as the femoral and tibial viewfinders have been illustrated for the right internal knees to the left external ones, being quite obvious that these templates have a symmetrical shape for the internal left or external right sides.

The invention finds a particularly advantageous application for the placement of prostheses defined in a Patent Application of which the applicant is also the holder and more generally for the installation of internal or external mono-compartmental prostheses, bibioc bi-compartmental prostheses (c '' that is to say, simultaneous placement of a mono-internal prosthesis and a mono-external prosthesis, internal or external trochl eo-condylar prostheses).

The invention is in no way limited to that of its modes of application any more than to those of embodiments of various parts which have been more particularly indicated; on the contrary, it embraced all the variants.

Claims

-1- Apparatus for fitting knee prostheses, in particular of the internal and / or external mono-compartmental type, internal or external trochleo-condylar, characterized in that it comprises in combination a tibial device shaped to perform the tibial coupas at 90 ° and, for each knee, on the one hand, a femoral viewfinder and a tibial viewfinder used in full extension of the knee and, on the other hand, a condylar cut template and a trcchlean cuta template, used in the position of 90 ° knee flexion.

-2- Apparatus according to claim 1, characterized in that the femoral viewfinder is shaped and arranged to be temporarily fixed in the middle of the lower part of the femoral shaft and in the center of the notch mtercondyl lanne, said viewfinder having cores ( 1a) at (1b) confirmed to report, in combination with corrasponding parts (9) at (10) of the tibial viewfinder, the desired value of the angle of the mechanical axis of the femur to be corrected noted on an X-ray

-3- Apparatus according to claim 2, characterized in that the femoral visaur comprises a body (1) with a straight support part (1a) at a horizontal position (1b) graduated angularly all las one degree from ladita part (1a), the body (1) being equipped in axial alignment with the rectilinear partia (1a) of a boss (1c) cooperating with means (2 and 3) to allow the bringing together or the spacing of two vertical flanges (4 and 5) equidistant from said boss; said flanges being intended to cooperate on either side of the femur.

-4- Apparatus according to claim 3, characterized in that the body (1) at the boss (1c) and in axial alignment with the rectilinear partia (1a) has a hole (1d) for the pledge of a fixing member cooperating with the middle of the lower part of the femoral shaft, said rectilinear part (1a) having, overhanging its underside, a vertical branch (1e) arranged and at the end for the passage of a fixing member located in a plane orthogonal to the previous one to correspond to the center of the intercondylar notch.

-5- Apparatus according to claim 2, characterized in that the tibial viewfinder comprises a support sole (7) receiving free sliding a base (8) secured to a vertical branch (8a) whose libra end is equipped free articulation of an aiming rod (9) which extends in a plane orthogonal to said base, the sole (7) being capable of receiving perpetually at its base in a removable manner gauge blocks (10) of variable thicknesses predetermined; said wedges being capable of cooperating with support with the tibial cuts at 90 ° to reach the desired correction angle.

-6- Apparatus according to claim 5, characterized in that the thickness of the wedges (10) is equal to the thickness of the tibial trays comprising a metal embass at a polyetylene support block plus the thickness of the surface d support of the prosthesis to be placed.

-7- Apparatus salon claims 1 to 6 together, characterized in that the condylar cutting template includes a horizontal block (11) which acts as a guide blade for the condylar cutting by means of a Cila transverse slots) said block (11) being mounted at the end of a gripping handle (12), the faca da below the block (11) being arranged to receive in a demountable manner and in a parallel plane, in calas-standards (13) of predetermined variable thicknesses corresponding to the different thicknesses of the shims (10), the shims (13) being intended to be positioned bearing on the tibial cuts at 90 °. -8- Apparatus according to claim 7, characterized in that the laf ente mistletoe-l (1 1 a) is located at a distance (x) from the top face of the selected tibial wedge (13), said distance (x) corresponding to the posterior part of the condylar proteses.

-9- Apparatus according to claim 7, characterized in that the block (11) has overhanging its lateral edge, on the side of the wedge (13), a vertical rod (11b), located in a plane perpendicular to the plate standard (13) and intended to come into abutment against part of the femoral viewfinder in order to be at 90 ° section on said viewfinder.

-10- Apparatus according to claim 1, characterized in that the trcchléen cutting template comprises a horizontal block

(14) which acts as a blade guide by means of fentas (14a) established from the transverse faces of said block, the underside of which has an overhanging and in an offset manner with respect to its vertical median axis, an orthogonal shape support

(15) dastiné to be applied on the resected condylar surface, said volume (15) being integral with a grip handle (16) and having in a manner oarallèla to the horizontal cutting block (14), a gauge block ( 17) whose thickness corresponds to the constant thickness of the prostheses, the ladita wedge (17) being intended to be applied to the wedge (13) of determined thickness.

-11- Apparatus according to claim 10, characterized in that the block (14) has vertically superimposed and along its median axis, three holes (14b) for the passage of a shaped means for choosing one of the prosthesis sizes , the slots (14a) being established on each side of the holes (14b) in a corresponding manner.