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Timestamp: 2014-12-20 08:01:47
Document Index: 607825068

Matched Legal Cases: ['art 16', 'arts 17', 'arts 19', 'arts 19', 'arts 19', 'art 21', 'art 22']

Knee Prosthesis Having A Mixed Meniscal Plate FreshPatents Stats n/a views for this patent on FreshPatents.comUpdated: December 09 2014 TOP 200 Companies filing patents this week
Knee prosthesis having a mixed meniscal plate Knee prosthesis having a mixed meniscal plateThe invention relates to a knee prosthesis (1) including a femoral part (2) connected to a tibial plate (3) by an intermediate meniscal plate (4) provided with an upper surface (5). The intermediate meniscal plate (4) and the tibial plate (3) are connected to each other by two planar joining surfaces, the tibial plate (3) including a central pivot pin (26) or at least one clipping/indexing finger (34, 35) which protrudes with respect to the tibial joining surface (11). The meniscal joining surface (12) of the meniscal plate (4) includes, in combination, a central hole (25) capable of engaging with the pivot pin (26) of the tibial plate in one case, and a locking recess (46, 47) capable of becoming embedded with the indexing finger (34, 35) of the tibial plate in the other one case, depending on whether the tibial plate comprises a pivot pin or an indexing finger.Related Terms: Femoral Prosthesis Tibia Indexing Clipping Browse recent Implanet patentsUSPTO Applicaton #: #20130006374 - Class: 623 2028 (USPTO) - 01/03/13 - Class 623 Prosthesis (i.e., Artificial Body Members), Parts Thereof, Or Aids And Accessories Therefor > Implantable Prosthesis >Bone >Joint Bone >Knee Joint Bone >Having Member Secured To Femoral And Tibial Bones >Including An Intermediate Member Inventors: The Patent Description & Claims data below is from USPTO Patent Application 20130006374, Knee prosthesis having a mixed meniscal plate.
The present invention relates to a knee prosthesis comprising a femoral component, a tibial plateau and an intermediate meniscal plate.
It has an important application mainly, but not exclusively, in the field of so-called total knee prostheses.
It is known that knee prostheses are generally of the three-compartment type.
In other words, they are prostheses comprising, on the one hand, two elements for replacing the femoral part and tibial part of the joint between the femur and the tibia, and, on the other hand, an element for forming the intermediate friction surface of the patella.
The complete or total prosthetic structure thus has a femoral component or plane, a tibial plateau or plane, and a meniscal plate often called the tibial insert. It is completed by a patellar implant which, since it has no role in the context of the present invention, will not be mentioned again hereinafter.
In a manner known per se, the tibial plateau cooperates with the femoral component via the meniscal plate, so as to thereby produce the different movements of the knee joint.
It should he noted at this point that, in order to permit adaptation to the different morphologies of patients, all of these implants have to be provided in several sizes and thicknesses. Regarding the use of these prostheses, there are essentially two techniques for reconstructing the knee joint.
The first technique involves using a meniscal plate that is fixed with respect to she tibial plateau.
The second technique involves using what are called mobile meniscal plates, as opposed to the fixed meniscal plates.
These mobile plates are designed to better reproduce the Kinematics of the joint by reducing the paradoxical movements due to the femoral component.
To permit the implementation of these two techniques, the surgeon must therefore have access to meniscal plates for each size and for each possible technique, and also in several thicknesses.
Moreover, regardless of the meniscal plates used, whether fixed or mobile, some surgeons consider it important to preserve the posterior cruciate ligament, when possible, in order to limit the anterior displacements of the femur with respect to the tibia.
By contrast, other surgeons favor removing this ligament, preferring to achieve limitation of the anterior displacement of the femur on the basis of the particular design of the meniscal plate.
It is therefore necessary to have fixed plates with cruciate, fixed plates without cruciate, mobile plates with cruciate and mobile plates without cruciate, which further increases the number of plates. It will be noted that “without cruciate” is equivalent to “postero-stabilised”.
The surgeon then has to choose the meniscal plate that will permit optimal reconstruction of the patient's joint in terms of the stability and amplitude of the movements wanted for the patient in question.
The prostheses of the prior art have a considerable disadvantage in particular in this respect. They require the provision of a very large number of femoral components, tibial plateaus and meniscal plates, in order to cover all eventualities.
In other words, a range of knee implants which includes the two types of meniscal plates, namely the mobile plates and the fixed plates, while permitting a choice between preserving the posterior ligament or removing it, is necessarily composed of a large number of components.
For example, a range of prostheses in the prior art consisting of eight sizes of femoral components for each side and for each type, i.e. thirty-two femoral components in total, three thicknesses of meniscal plates for each size and each type, and, finally, sixteen sizes of tibial plates, requires the provision of one hundred and forty-four different elements.
Prostheses are known (US 2006/0161259) that comprise a central fixation component and are intended to function after removal of the ligament.
Prostheses are also known (EP 0 732 091) that are designed to function without removal and with antero-posterior play and the possibility of rotation.
Such prostheses give rise to paradoxical movements leading to dislocations of the joint and to abnormal attrition of the meniscal component.
Moreover, none of these prostheses allows control of both clinical cases simultaneously.
One of the objects of the present invention is to make available a knee prosthesis which meets the practical requirements better than those that are already known, especially one which permits the same physical possibilities as the prostheses of the prior art, but which requires a much smaller number of elements.
Thus, practically all of the component parts of a prosthesis according to the invention will be able to function in one case with removal of the ligament and in the other case without removal of the ligament.
By virtue of one of the aspects of she invention, it will thus be possible to reduce the stock and therefore the investments of the implant manufacturer, while at the same time increasing patient safety by eliminating potential sources of error.
Moreover, the invention reduces the operating time and allows surgeons and operating theater personnel to be trained quickly in the use of the range of implants.
To this end, the invention essentially proposes a knee prosthesis comprising a femoral component connected to a tibial plateau by an intermediate meniscal plate provided with an upper face, said femoral component having a trochlear shield provided with an outer face cooperating under gentle friction with at least one guide area of complementary shape formed in said upper face,
characterized in that the intermediate meniscal plate and the tibial plateau are connected to each other by way of two planar joining faces, namely a tibial joining face and a meniscal joining face, the tibial joining face being larger than the meniscal joining face in its antero-posterior dimension and medio-lateral dimension,
in that the tibial plateau comprises a central pivot pin or at least one clipping/indexing finger, said pin or said finger protruding with respect to the tibial joining face,
and in that the meniscal joining face of the meniscal plate comprises, in combination, a central blind hole capable of cooperating under gentle friction about its entire periphery with the pivot pin of the tibial plateau in one case, and a locking recess capable of being engaged by the indexing finger of the tibial plateau in the other case, depending on whether the tibial plateau has a pivot pin or an indexing finger.
Thus, by virtue of this particular design of the meniscal plate, the same meniscal plate, which can also be designated as a so-called mixed meniscal plate, can be used equally as a fixed plate or as a mobile plate, depending on the tibial plateau chosen by the surgeon, and this will reduce the stock of meniscal plates by half.
In the embodiment more particularly described here, the tibial joining face is larger than the meniscal joining face in all of its dimensions parallel to its antero-posterior axis of symmetry, and also perpendicularly with respect to this axis (medio-lateral dimensions).
In other words, when the meniscal plate is centered, and in its median position on the tibial plateau, all of the meniscal joining surface is inscribed entirely within the tibial joining surface, which has an edge always protruding, for example by 1 mm, beyond the periphery of the meniscal joining surface, this periphery never being coincident at any point with said edge in this position.
This arrangement will, on the one hand, surprisingly permit the standardization of the components leading to the invention and will, on the other hand, permit protection of the ligaments and/or soft tissue parts belonging to and/or adjacent to the joint.
Advantageously, the surfaces of the planar joining faces are in the shape of an ellipse or substantially in the shape of an ellipse, truncated on an edge, for example over 1/10th or even 1/20th of their surface, parallel to the main axis of the ellipse.
The surfaces are designed to permit rotary pivoting of one with respect to the other, such that the curved outer periphery of the meniscal joining face in the shape of a portion of an ellipse, or substantially in the shape of a portion of an ellipse, remains inscribed within the joining face of the tibial plate, for an angle of rotation between the faces of between −12° and +12°, or even −8° and +8° and/or −4° and +4°, with respect to the medio-lateral axis of the meniscal plate, or main axis of the ellipse.
In practice, with the movements of the knee being physiologically limited in terms of rotation of the order of ±4 to 5°, or ±7 to 8°, such arrangements make it possible to preserve the soft tissue parts without the need to provide specific limit stops.
Unexpectedly, therefore, there is natural protection of the soft tissue parts.
Moreover, the fact that the (potentially aggressive) outer periphery of the meniscal plate, thus always inscribed within the surface of the tibial plate, is able to pivot in rotation about a pin joined integrally to the tibial plateau or tibial component, without any possibility of the meniscal plate sliding with respect to the tibial plateau, or by contrast can be rigidly fixed to said tibial component by fingers, avoids the protuberances that occur in the position of equilibrium and that create micro-stresses leading to more rapid wear and/or to pain.
In particular embodiments, use is also made of one and/or more of the following arrangements:
the upper face of the meniscal plate is provided with a pin and with two guide areas formed in the upper face on each side of said pin, the trochlear shield of the femoral face having a slit for guiding said pin;
the tibial plateau comprises at least one indexing finger, designed to engage in the recess for locking the meniscal plate in a defined position with respect to the tibial plateau;
the tibial plateau comprises two posterior indexing fingers and one anterior indexing finger able to cooperate with two posterior recesses and one anterior recess of the meniscal plate;
the tibial joining face has a peripheral shoulder forming a clipping finger along at least part of the periphery of said plateau in which the meniscal joining face engages completely;
the tibial plateau comprises a central pivot pin, the meniscal plate being mounted so as to be movable in rotation with respect to the tibial plateau about said pin;
the pin of the upper face of the meniscal plate has the shape of a Phrygian cap or a thumb;
the Phrygian cap has an upper lip forming a slight projection designed to generate a retreating movement of the femoral component in the event of its shifting by more than 1 mm with respect to the meniscal plate.
Such an arrangement avoids anterior dislocation of the prosthetic joint;
the meniscal joining face has at least one recess angled with respect to the periphery of said face and designed to permit the disconnection of the meniscal plate from the tibial plateau. This recess, which can be accessed laterally by the surgeon with an instrument, allows him to disconnect them or unclip them from each other by leverage;
the zone posterior to the central pin of the meniscal plate has a reinforcing part connecting the two postero-lateral zones of articular friction;
the femoral component and the tibial plateau are made of metal alloy, and the meniscal plate is made of polymer plastic, for example polyethylene.
The invention also proposes a set of several prostheses as have been described above, characterized in that it has at least one tibial plateau for a fixed meniscal plate and at least one tibial plateau for a mobile meniscal plate, and a range of corresponding meniscal plates of several thicknesses.
In the description, reference is made to the accompanying FIGS. where:
FIGS. 1A and 1B show perspective views, respectively from above and from below, of the three elements, detached from one another, of a prosthesis according to a first embodiment of the invention.
FIGS. 2A and 2B show perspective views, respectively from above and from below, of a second embodiment of a prosthesis according to the invention, with the elements once again detached from one another.
FIGS. 3A to 3D show an axonometric perspective view, a rear view, a lateral cross-sectional view and a bottom view, respectively, of the meniscal plate according to the embodiment of she invention more particularly described here.
FIGS. 4A to 4C show an axonometric perspective view, a lateral cross-sectional view and a front view, respectively, of the tibial plateau according to the embodiment of FIG. 1.
FIGS. 5A to 5C show an axonometric perspective view, a lateral cross-sectional view and a front view, respectively, of the tibial plateau according to the embodiment of FIG. 2.
FIGS. 6A and 6B show a bottom view, in perspective, and a top view of an embodiment of the tibial plateau according to the invention.
FIGS. 7A and 7B each show, in a diagrammatic plan view, the relative positions of the joining face of the meniscal plate with respect to the joining face of the tibial plateau.
In the description below, the same reference numbers will be used to designate identical elements.
FIGS. 1A and 1B show a knee prosthesis 1 comprising a femoral component 2 connected to a tibial plateau 3 by an intermediate meniscal plate 4 provided with an upper face 5 comprising a pin 6. The femoral component 2 has a trochlear shield 7 provided with a slit 8 for guiding the pin, and an outer face 9 which cooperates, under gentle friction, with two guide areas 10 of complementary shape formed in the upper face 5 on each side of the pin.
The intermediate meniscal plate 4 and the tibial plateau 3 are connected to each other by way of two planar joining faces, namely a tibial joining face 11 and a meniscal joining face 12, the tibial joining face 11 being larger than the meniscal joining face 12 in its antero-posterior dimension d and medio-lateral dimension D.
The pin 6 is shaped like a Phrygian cap or the upper phalanx of a thumb, having an upper lip 13 forming a slight projection 14 designed to generate a retreating movement of the femoral component in the event of the latter shifting (arrow 15) by more than 1 mm with respect to the meniscal plate.
More precisely, the femoral component 2 comprises a first tongue-shaped part 16 ending at a point 16′, defining the concave surface of revolution of the outer sliding face 9, which has a variable radius of curvature between said first tongue-shape part and its lateral parts 17, symmetrical with respect to a central axis 18.
The femoral component terminates on the other side with end parts 19, opposite the pointed part of the trochlear surface, said parts 19 being curved inward.
In this embodiment, these two parts 19 are connected by way of a central joining beam 20, closing the guide slit 8 for the pin.
The slit 8 has, for example, a substantially rectangular shape with a curvature corresponding to that of the femoral component.
In the embodiment more particularly described here, the slit 8, with a width slightly greater than that of the pin 6, for example of 2 mm, has a length which, for example, is equal to two thirds of the deployed length of the surface of cooperation of the femoral component 2 wish the meniscal plate 4.
The meniscal plate 4 itself has a first part 21 anterior to the pin 6 and rising toward the outside, and a second part 22 posterior to the central pin of the meniscal plate, provided with a rounded reinforcement zone 23 and connecting the two postero-lateral zones 10 of complementary shape to the two lateral zones of the outer face 9 of the trochlear shield of the femoral component.
This reinforcement zone 23 can itself be provided with a recess 24 toward the outside, situated on its outer surface, permitting a better grip of the meniscal plate.
The meniscal plate 4 will be described in more detail below with reference to FIGS. 3A to 3D.
However, for the time being, it will be noted that this meniscal plate comprises, in combination, a cylindrical central orifice 25 (cf. FIG. 1B), in the form of a blind hole, capable of cooperating under gentle friction with a pivot pin 26 of the tibial plateau 3 (cf. FIG. 1A) of complementary cylindrical shape, and at lease one locking recess 27 (cf. FIG. 2B) capable of being engaged by an indexing finger 28 of the tibial plateau 29 (cf. FIG. 2B).
With reference to FIGS. 1A, 1B, 2A and 2B, the two embodiments of tibial plateau 3 or 29 usable with the prosthesis according to the invention will now be described.
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Patent InfoApplication # US 20130006374 A1Publish Date 01/03/2013 Document # 13583701 File Date 03/16/2011 USPTO Class 623 2028 Other USPTO Classes International Class 61F2/38 Drawings 6 FemoralProsthesisTibiaIndexingClipping
ImplanetBrowse recent Implanet patentsProsthesis (i.e., Artificial Body Members), Parts Thereof, Or Aids And Accessories Therefor Implantable Prosthesis Bone Joint Bone Knee Joint Bone Having Member Secured To Femoral And Tibial Bones Including An Intermediate Member