CN213941066U - Total knee joint prosthesis - Google Patents

Abstract

The utility model provides a total knee joint prosthesis, including thighbone condyle prosthesis and shin bone pad prosthesis, thighbone condyle prosthesis is installed on shin bone pad prosthesis. The outer side of the femoral condyle prosthesis is provided with a patellar groove, and the bottom of the femoral condyle prosthesis is provided with a femoral condyle joint surface; the patellar groove increases in depth extending down the top of the lateral side of the femoral condylar prosthesis. Femoral condyle prostheses include a series of prostheses whose femoral condyle articular surfaces have radii that differ from the center-to-center distance. The tibial pad prosthesis is provided with a tibial pad prosthesis joint surface and comprises a series of prostheses, and the radius and the center distance of the tibial pad prosthesis joint surface are different. The tibial pad prosthesis femoral condyle prosthesis has large contact area with the femoral condyle prosthesis, reduces the pressure and the abrasion of polyethylene, and has strong stability; the radiuses and the center distances of adjacent series of the femoral condyle prosthesis and the tibial pad prosthesis are close, so that the shapes of the joint surfaces between adjacent models are similar, and the probability of abrasion and looseness is reduced.

Description

Total knee joint prosthesis

Technical Field

The utility model relates to a knee joint prosthesis field especially indicates a total knee joint prosthesis.

Background

At present, the existing artificial knee joint prosthesis represents a large proportion of patella in the aspect of postoperative adverse reaction, such as: pain in the patella, flaccidity of the patella, instability of the patella, and the like. The main reason is that because the design of the prosthesis can not satisfy the difference of individuality, the patella pulley groove is too wide and is easy to cause the instability of the patella, and the patella pulley groove is too narrow and is easy to cause the pain of the patella or the insufficiency of the buckling function. When the femoral condyle is matched with tibial pad prostheses of different models, the situation that the circular arc of the femoral condyle and the circular arc of the tibial pad prosthesis are not matched very often occurs. If the femoral-tibial articular surface is not well matched, the abrasion of the tibial pad prosthesis relative to the femoral condyle is increased sharply, and a large amount of polyethylene fine particles are precipitated and filled between the knee joint prosthesis and the condyle interface, which is an important reason for causing the bone dissolution to cause the prosthesis to loosen.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a total knee joint prosthesis for poor stability, the easy wearing and tearing of prosthesis when solving among the prior art and implanting and the poor problem of articular surface cooperation nature.

In order to achieve the above object, the utility model provides a following technical scheme:

a total knee prosthesis comprising a femoral condyle prosthesis and a tibial pad prosthesis, the femoral condyle prosthesis mounted on the tibial pad prosthesis.

The outer side of the femoral condyle prosthesis is provided with a patellar groove, and the bottom of the femoral condyle prosthesis is provided with a femoral condyle joint surface;

the patellar groove extends downwardly to a progressively greater depth along the lateral aspect of the femoral condyle prosthesis.

Wherein, the femoral condyle prosthesis comprises a series of prostheses, and the radii and the center distances of the femoral condyle joint surfaces of the series of prostheses are different.

Wherein the femoral condyle prosthesis comprises an anterior condyle, a femoral condyle distal end and two posterior condyles which are integrally connected.

Wherein the femoral condyle prosthesis has an outwardly extending prosthesis rim thereon forming a prosthesis boundary.

Wherein the radii of the femoral condylar articular surfaces of the series of prostheses gradually taper according to the series number of the series of prostheses.

Wherein a small-area intercondylar box is formed between the distal femoral condyle end and the two posterior condyles, and an intercondylar box protruding outwards is formed between the intercondylar box and the distal femoral condyle end and the posterior condyles.

The upper half part of the inner side of the anterior condyle is provided with an inverted U-shaped shallow groove, and the lower half part of the inner side of the anterior condyle is symmetrically provided with two L-shaped shallow grooves.

Wherein, a femoral condyle fixing column is arranged on the distal end of the femoral condyle;

two U-shaped grooves with openings oppositely arranged are arranged on the position, surrounding the femoral condyle fixing column, of the distal end of the femoral condyle.

A tibial pad prosthesis having a tibial pad prosthesis articular surface disposed thereon, the tibial pad prosthesis comprising a series of prostheses having tibial pad prosthesis articular surfaces of different radii and different center-to-center distances.

Tibia pad prosthesis the utility model discloses an above-mentioned technical scheme's beneficial effect as follows:

in the above scheme, (1) when the femoral condyle prosthesis provided by this embodiment is flexed, the contact area between the patella groove and the patella is large, so that the pressure intensity is reduced, the wear of polyethylene is reduced, and the stability of the patella and the patella is increased; the groove can meet the difference between different individuals, and the gradually deepened groove can provide enough stable constraint environment for the patella in the buckling process, so that the difference between different patients and the stability of the patella in the movement process are considered, and both the difference and the stability are considered; the radii and the center distances of adjacent series of the femoral condyle prosthesis are close, so that the shapes of the femoral condyle joint surfaces between adjacent models are approximate to the greatest extent, the abrasion between the femoral condyle prosthesis and the tibial pad prosthesis when the models of the femoral condyle prosthesis are not matched with the models of the tibial pad prosthesis can be effectively reduced, and the probability of prosthesis loosening is reduced; the small-area intercondylar box of the femoral condyle prosthesis provided by the embodiment can retain more bone mass of the patient; the intercondylar box is arranged around the intercondylar box of the femoral condylar prosthesis provided by the embodiment, so that excessive friction is avoided when other parts are installed in the intercondylar box, and dislocation caused by the excessive friction is avoided; the prosthesis edge at the prosthesis boundary of the femoral condyle prosthesis provided by the embodiment forms different prosthesis edges according to different parts of the prosthesis, so that the prosthesis edge can be better attached to an osteotomy surface, and postoperative discomfort or dysfunction caused by the exposed prosthesis is reduced.

(2) The tibial pad prosthetic bone provided by the present embodiment reduces wear between the condylar prosthesis and the tibial pad prosthesis, reducing the probability of loosening the prosthesis.

(3) The total knee joint prosthesis provided by the embodiment can meet the requirement that the posterior condyles of individual differential femoral condyle prostheses meet the buckling function of a human body, and is stably connected with the patella; the matching performance of the femoral condyle prosthesis and the tibial pad prosthesis is high, the femoral condyle joint surface is prevented from being mismatched with the tibial pad prosthesis joint surface, the friction between the femoral condyle prosthesis and the tibial pad prosthesis is reduced, and the loosening of the prosthesis is reduced. The radii and the center distances of adjacent series of the femoral condyle prosthesis are close, so that the shapes of the femoral condyle joint surfaces between adjacent models are approximate to the maximum extent, the abrasion between the femoral condyle prosthesis and the tibial pad prosthesis when the model of the femoral condyle prosthesis is not matched with the model of the tibial pad prosthesis can be effectively reduced, and the probability of loosening the prosthesis is reduced.

Drawings

Fig. 1 is a front view of a femoral condyle prosthesis of the present invention;

FIG. 2 is a cross-sectional view A-A of the femoral condyle prosthesis of the present invention;

FIG. 3 is a cross-sectional view B-B of the femoral condyle prosthesis of the present invention;

FIG. 4 is a C-C cross-sectional view of a femoral condyle prosthesis of the present invention;

FIG. 5 is a D-D cross-sectional view of a femoral condyle prosthesis of the present invention;

FIG. 6 is a cross-sectional E-E view of a femoral condyle prosthesis of the present invention;

fig. 7 is a left side view of a femoral condyle prosthesis of the present invention;

fig. 8 is a right side view of a femoral condyle prosthesis of the present invention;

fig. 9 is a schematic structural view of a femoral condyle prosthesis according to the present invention;

fig. 10 is a schematic structural view of a tibial pad prosthesis of the present invention;

reference numerals:

1. a femoral condyle prosthesis; 11. an anterior condyle; 111. an intercondylar box front edge; 112. an inverted U-shaped shallow slot; 113. l-shaped shallow grooves; 12. a distal femoral condyle; 121. a femoral condyle fixing column; 122. a U-shaped shallow slot; 13. posterior condyles; 14. A cross beam; 15. an intercondylar box; 17. a patellar groove; 18. a prosthetic margin; 19. femoral condyle articular surfaces; 2. A tibial pad prosthesis; 21. a tibial pad prosthetic articular surface; 3. the patella.

Detailed Description

In order to make the technical problems, technical solutions and advantages to be solved by the present invention clearer, the following detailed description will be given with reference to the accompanying drawings and specific embodiments.

The utility model provides a total knee joint prosthesis to the poor stability of current prosthesis when implanting, the easy wearing and tearing and the poor problem of articular surface cooperation nature.

As shown in FIGS. 1-10, the present embodiment provides a total knee prosthesis comprising a femoral condyle prosthesis 1 and a tibial pad prosthesis 2. The total knee joint prosthesis comprises a femoral condyle prosthesis 1 and a tibial pad prosthesis 2, which can meet the individual difference, and the posterior condyle 17 of the femoral condyle prosthesis 1 meets the buckling function of a human body and is stably connected with the patella 3. The matching performance of the femoral condyle prosthesis 1 and the tibial pad prosthesis 2 is high, the femoral condyle joint surface 19 is prevented from being mismatched with the tibial pad prosthesis joint surface 21, the friction between the femoral condyle prosthesis 1 and the tibial pad prosthesis 2 is reduced, and the prosthesis looseness is reduced. Specifically, the tibia pad prosthesis is provided with a stand column, the stand column passes through an intercondylar box of the femoral condyle prosthesis and then is contacted with the cross beam, and a femoral condyle joint surface is contacted with a tibia pad prosthesis joint surface.

Fig. 1 is a front view of the present embodiment, fig. 2 to 6 are sectional views of the present embodiment at 5 positions, and fig. 7 and 8 are left and right views of the femoral condyle prosthesis 1, respectively, as shown in fig. 1 to 8. The embodiment provides a femoral condyle prosthesis 1, wherein a patellar groove 17 is arranged on the outer side of the femoral condyle prosthesis 1, and a femoral condyle joint surface 19 is arranged at the bottom of the femoral condyle prosthesis 1; the patellar groove 17 extends progressively deeper down the lateral aspect of the femoral condylar prosthesis 1. The patellar groove 17 of the femoral condyle prosthesis 1 provided in this embodiment is connected to the patella 3, and the groove gradually extends from the top of the femoral condyle prosthesis 1 to the bottom of the femoral condyle prosthesis 1 to the joint surface of the femoral condyle. The width of the groove gradually increases from the top of the femoral condyle prosthesis 1 to the bottom of the femoral condyle prosthesis 1, the depth of the groove also gradually increases, and a groove which gradually widens from the top of the femoral condyle prosthesis 1 is formed, and the specific structure is shown in fig. 2-6. And, starting from the top of the femoral condyle prosthesis 1, the contact between the groove and the patella 3 is larger, so that the contact area between the groove and the patella 3 is large in the buckling process of a person, the pressure is reduced, the abrasion of polyethylene is reduced, and the stability of the groove and the patella 3 is improved. The groove can meet the difference between different individuals, the gradually deepened groove in the buckling process can provide enough stable constraint environment for the patella 3, so that the difference between different patients is considered, the stability of the patella 3 in the motion process is also considered, and both the differences and the stability are considered. The stability at high flexion can be improved.

The articular surface of the femoral condyle prosthesis 1 of the present embodiment has radii and center distances as in table 1-1, which has radii and center distances of different series of prostheses. Fig. 7 is a left side view of the femoral condyle prosthesis 1 of the present embodiment, in which R denotes a radius of an articulation surface of the femoral condyle prosthesis 1 and L denotes a center distance of the articulation surface of the femoral condyle prosthesis. The present embodiment provides a femoral condyle prosthesis 1 comprising a series of prostheses having femoral condyle articular surfaces 19 of different radii and different center-to-center distances. Specifically, the series of prostheses provided by the present embodiment may be divided into 7 series, and the radius and the center distance of the prostheses in each series are different from those in the other series. Further, the radii of the femoral condyle articular surfaces 19 of a series of prostheses are gradually changed according to the serial numbers of the series of prostheses, and the center distance is matched with the radii, so that the radii and the center distance of the series of femoral condyle prostheses 1 can effectively reduce the abrasion between the femoral condyle prostheses 1 and the tibial pad prosthesis 2. When the prosthesis is implanted, different series of femoral condyle prostheses 1 may be selected according to individual differences. Even the model of thighbone condyle prosthesis 1 does not match with the model of shin bone pad prosthesis 2, because the adjacent series's of thighbone condyle prosthesis 1 of this application radius is close with the centre-to-centre spacing, makes the shape of thighbone condyle articular surface 19 between the adjacent model approximate to the at utmost, can effectually reduce the wearing and tearing between thighbone condyle prosthesis 1 and the shin bone pad prosthesis 2 when the model of thighbone condyle prosthesis 1 does not match with the model of shin bone pad prosthesis 2, reduces the not hard up probability of prosthesis.

TABLE 1-1

	1#	2#	3#	4#	5#	6#	7#
								Radius of	21	22	22.5	24	25.5	25.7	26
Center distance	21	21.5	22	22.7	23	23.6	24

Fig. 10 is a schematic structural view of the femoral condyle prosthesis 1 according to the present embodiment, as shown in fig. 9. The present embodiment provides a femoral condyle prosthesis 1 including an integrally connected anterior condyle 11, a femoral condyle distal end 12, and two posterior condyles 13. Further, the femoral condylar distal end 12 and the two posterior condyles 13 form a small-area intercondylar box therebetween, and the intercondylar box forms an outwardly-projecting intercondylar box therebetween with the femoral condylar distal end 12 and the posterior condyles 13. The intercondylar distal end 12 and the two posterior condyles 13 form a small-area intercondylar box 15, the small-area intercondylar box 15 can retain more bone mass of a patient, specifically, the intercondylar box 15 is approximately rectangular, a smaller intercondylar box front edge 111 is arranged at the joint of the femoral condyle and the femoral condylar distal end 12, one end of the intercondylar box 15 is arranged on the intercondylar box front edge 111, the intercondylar box 15 of the embodiment is formed by directly grooving the femoral condyle and the femoral condylar distal end 12, the shape of the intercondylar box 15 is small, the depth of the intercondylar box 15 is small, and the intercondylar box 15 with a smaller area is formed. An intercondylar box 15 protruding outwards is formed between the intercondylar box 15 and the femoral condyle far end 12 and the posterior condyle 13, and the intercondylar box 15 can provide a certain friction interface when the tibial pad prosthesis 2 is in contact with an intercondylar structure, so that the intercondylar upright post 31 of the tibial pad prosthesis 2 is not in direct contact with a bone surface, excessive friction is avoided, and dislocation caused by the excessive friction is avoided. Specifically, the intercondylar box edge is arranged around the intercondylar box 15 and is a projection upwards along the edge of the intercondylar box 15, the depth of the intercondylar box 15 is shallow, the femoral condyle prosthesis 1 adopts a metal femoral condyle prosthesis 1, and the femoral condyle prosthesis 1 has the intercondylar box 15 with a smaller area, so that more bone mass of a patient can be reserved. The intercondylar box 15 has an intercondylar box edge around it that avoids excessive friction and dislocation caused by excessive friction when other components are mounted in the intercondylar box.

As shown in fig. 9, the present embodiment provides a femoral condyle prosthesis 1 having an outwardly extending prosthesis rim forming a boundary of the prosthesis. This embodiment provides a prosthesis having an outwardly extending prosthesis rim 18 that forms a boundary of the prosthesis. The width of the prosthetic rim 18 on the anterior condyle 11 increases from the top of the anterior condyle 11 toward the distal end 12 of the femoral condyle. The width of the prosthetic edge 18 at the distal end 12 of the femoral condyle tends to be uniform; the width of the prosthetic edge 18 of one posterior condyle 13 is greater than the width of the prosthetic edge 18 of the other posterior condyle 13, and the prosthetic edge 18 of the posterior condyle 13 with the greater width is in circular arc transition connection with the prosthetic edge 18 of the distal end 12 of the femoral condyle. The prosthesis edge 18 at the prosthesis boundary forms different prosthesis edges 18 according to different parts of the prosthesis, so that the osteotomy surface can be better fitted, and postoperative discomfort or dysfunction caused by the exposed prosthesis is reduced.

As shown in fig. 9, the present embodiment provides an inverted U-shaped shallow groove on the upper half of the medial side of the anterior condyle 11, and two L-shaped shallow grooves are symmetrically disposed on the lower half of the medial side of the anterior condyle 11. The upper half of the medial side of the anterior condyle 11 provided in this embodiment is provided with an inverted U-shaped shallow groove 112, the lower half of the medial side of the anterior condyle 11 is symmetrically provided with two L-shaped shallow grooves 113, and the inverted U-shaped shallow groove 112, the L-shaped shallow grooves 113 and the prosthesis edge 18 of the anterior condyle 11 form a recessed area, which can fix bones well. The distal end 12 of the femoral condyle provided by the embodiment is provided with a femoral condyle fixing column; two U-shaped grooves with opposite openings are arranged on the position of the distal end 12 of the femoral condyle surrounding the femoral condyle fixing column. The upper ring of the distal end 12 of the femoral condyle is provided with two U-shaped grooves with opposite openings, and the U-shaped grooves and the prosthesis edge 18 of the femoral condyle fixing column form a concave area which can effectively fix bones.

Fig. 9 is a schematic structural view of the tibial pad prosthesis 2 according to the present embodiment, as shown in fig. 10. The data of the radius and the center distance of the tibial pad prosthesis joint surface 21 of the tibial pad prosthesis 2 of the present embodiment are shown in table 1-2, the present embodiment provides a tibial pad prosthesis 2, the tibial pad prosthesis 2 is provided with the tibial pad prosthesis joint surface 21, the tibial pad prosthesis 2 includes a series of prostheses, and the tibial pad prosthesis joint surfaces 21 of the series of prostheses have different radii and different center distances. When the prosthesis is implanted, different series of tibial pad prostheses 2 may be selected according to individual differences. Instant shin bone pad prosthesis 2's model and thighbone condyle prosthesis 1's model do not match, because the radius of the adjacent series of thighbone tibia pad prosthesis 2 of this application is close with the centre-to-centre spacing, make the shape of shin bone pad prosthesis articular surface 21 between the adjacent model approximate to the at utmost, the wearing and tearing between thighbone condyle prosthesis 1 and the shin bone pad prosthesis 2 when the model of thighbone tibia pad prosthesis 2 that can effectual reduction does not match with thighbone condyle prosthesis 1's model reduce the not hard up probability of prosthesis.

Tables 1 to 2

	1#	2#	3#	4#	5#	6#	7#
								Center distance	21.3	21.6	22.1	22.6	23	23.6	24
Radius of	21	22	22.5	24	25.5	25.7	26

In the above scheme, (1) when the femoral condyle prosthesis 1 provided in this embodiment is flexed, the contact area between the patella groove posterior condyle 17 and the patella 3 is large, so that the pressure is reduced, the wear of polyethylene is reduced, and the stability of the groove and the patella 3 is increased; the groove can meet the difference between different individuals, and the gradually deepened groove in the buckling process can provide enough stable constraint environment for the patella 3, so that the difference between different patients and the stability of the patella 3 in the movement process are considered, and both the difference and the stability are considered; the radii and the center distances of adjacent series of the femoral condyle prosthesis 1 are close to each other, so that the shapes of the femoral condyle joint surfaces 19 between adjacent models are approximate to the greatest extent, the abrasion between the femoral condyle prosthesis 1 and the tibial pad prosthesis 2 when the models of the femoral condyle prosthesis 1 are not matched with the model of the tibial pad prosthesis 2 can be effectively reduced, and the probability of prosthesis loosening is reduced; the small-area intercondylar box of the femoral condylar prosthesis 1 provided by the present embodiment can retain more of the patient's bone mass; the periphery of the intercondylar box of the femoral condylar prosthesis 1 provided by the embodiment is provided with an intercondylar box edge, so that excessive friction is avoided when other parts are installed in the intercondylar box, and dislocation caused by the excessive friction is avoided; the prosthesis edge at the prosthesis boundary of the femoral condyle prosthesis 1 provided by the embodiment forms different prosthesis edges according to different parts of the prosthesis, so that the prosthesis edge can be better attached to an osteotomy surface, and postoperative discomfort or dysfunction caused by the exposed prosthesis is reduced.

(2) The tibial pad prosthesis 2 provided by the present embodiment reduces wear between the condylar prosthesis and the tibial pad prosthesis 2, and reduces the probability of loosening the prosthesis.

(3) The total knee joint prosthesis provided by the embodiment can meet the requirement of the patellar groove 17 of the individual difference femoral condyle prosthesis 1 on the human body buckling function, and is stably connected with the patella 3; the matching performance of the femoral condyle prosthesis 1 and the tibial pad prosthesis 2 is high, the femoral condyle joint surface 19 is prevented from being mismatched with the tibial pad prosthesis joint surface 21, the friction between the femoral condyle prosthesis 1 and the tibial pad prosthesis 2 is reduced, and the prosthesis looseness is reduced. The radii and the center distances of adjacent series of the femoral condyle prosthesis 1 are close to each other, so that the shapes of the femoral condyle joint surfaces 19 between adjacent models are approximate to the maximum extent, the abrasion between the femoral condyle prosthesis 1 and the tibial pad prosthesis 2 when the models of the femoral condyle prosthesis 1 are not matched with the model of the tibial pad prosthesis 2 can be effectively reduced, and the probability of prosthesis loosening is reduced.

The embodiments in the present specification are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

In the description of the present invention, it is to be understood that the terms "upper", "one end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are merely for convenience of description of the present invention and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it is to be noted that the terms "provided with" and "connected" are to be interpreted broadly, unless explicitly stated or limited otherwise. For example, the connection can be fixed, detachable or integrated; may be directly connected or indirectly connected through an intermediate. The fixed connection can be common technical schemes such as welding, threaded connection and clamping. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The foregoing is a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A total knee prosthesis comprising a femoral condyle prosthesis and a tibial pad prosthesis, the femoral condyle prosthesis mounted on the tibial pad prosthesis;

the outer side of the femoral condyle prosthesis is provided with a patellar groove, and the bottom of the femoral condyle prosthesis is provided with a femoral condyle joint surface;

the patellar groove extends downwardly along the top of the lateral side of the femoral condyle prosthesis to a progressively increasing depth;

the femoral condyle prosthesis comprises an integrally connected anterior condyle, a femoral condyle distal end and two posterior condyles;

the femoral condyle prosthesis is provided with a prosthesis edge which extends outwards and forms a prosthesis boundary;

a small-area intercondylar box is formed between the distal femoral condyle and the two posterior condyles, and an intercondylar box protruding outwards is formed between the intercondylar box and the distal femoral condyle and the posterior condyles.

2. The total knee prosthesis of claim 1, wherein the articular surface of the femoral condyle prosthesis has a radius and a center distance.

3. The total knee prosthesis of claim 2, wherein the femoral condyle prosthesis comprises a series of prostheses having femoral condyle articular surfaces of different radii and different center-to-center distances.

4. The total knee prosthesis of claim 3, wherein the radii of the femoral condylar articular surfaces of the prosthesis gradually taper according to the serial number of the series of prostheses.

5. The total knee prosthesis of claim 1, wherein the upper half of the medial side of the anterior condyle is provided with an inverted U-shaped shallow groove, and the lower half of the medial side of the anterior condyle is symmetrically provided with two L-shaped shallow grooves.

6. The total knee prosthesis of claim 1, wherein a femoral condyle fixing post is provided on the distal end of the femoral condyle;

two U-shaped grooves with openings oppositely arranged are arranged on the position, surrounding the femoral condyle fixing column, of the distal end of the femoral condyle.

7. The total knee prosthesis of claim 1, wherein the tibial pad prosthesis has a tibial pad prosthesis articular surface disposed thereon, the tibial pad prosthesis comprising a series of prostheses having tibial pad prosthesis articular surfaces of different radii and different center-to-center distances.

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