KR101549327B1 - composites implant and surgical techniques for a tibial tuberosity advancement in treatment of a cranial cruciate ligament rupture - Google Patents

Abstract

The present invention relates to an implantable implant for the treatment of anterior cruciate ligament insufficiency, which occurs mainly in a dog's wrist, and a method of treatment using the implant. The present invention relates to an implantable implant for the treatment of anterior cruciate ligament adenoma, which improves the stability of the implantable implant and has a simple and easy surgical procedure, and a therapeutic method using the same.
That is, the present invention provides a tibial bone supporting unit for insertion and insertion of a tibial incision for treatment of anterior cruciate ligament insufficiency occurring in an animal other than a human. Wherein the implantable implant comprises a tibial support having a wedge shape having an inclined surface of an upper light-tight barrel on a rectangular body, and a tibial support having a plurality of projections on the inclined surface of the tibial support, And a bone formation inducing portion to which a porous body having micropores of the bone formation is attached.

Description

[0001] The present invention relates to an implantable implant for the treatment of anterior cruciate ligament injury,

The present invention relates to an implantable implant for the treatment of anterior cruciate ligament insufficiency, which occurs mainly in a dog's wrist, and a method of treatment using the implant. The present invention relates to an implantable implant for the treatment of anterior cruciate ligament adenoma, which improves the stability of the implantable implant and has a simple and easy surgical procedure, and a therapeutic method using the same.

In general, anterior cruciate ligament insufficiency is an arthritic disease that occurs in the hind legs of a dog. It occurs in small dogs rather than in large dogs. It may be caused by the elasticity of an anterior cruciate ligament and overweight due to aging and overweight. .

This method of treating the anterior cruciate ligament has been used as a substitute for the function of the entire cruciate ligament by using implants in addition to the joints, and for changing the dynamics of the joint using tibial osteotomy. The tibial tuberosity (tibial roughening) technique is widely used in recent years. The tibial tuberosity technique is a technique in which the joint surface of the standing dog and the angle of the anterior cruciate ligament are set at 90 degrees to offset the forward shear force, It is a way of giving exercise stability.

As related prior art, Patent No. 1298887 (treatment of anterior cruciate ligament insufficiency by a tibia rough surface crush osteotomy) includes: (a) cutting a rough tibia rough surface into a crank shape; (b) anterior displacement in a state in which the osteoclast of the bone fragment and the osteolysis surface of the tibia are in contact with each other after the crank osteotomy; (c) Fixing the displaced fragments using a TTA-specific plate and a general fixing device (plate, screw, wire, etc.) instead of a fork.

Since the prior art uses a plurality of screws or wires in the form of screws passing through the bone in order to fix the plate used as a fixation device to one side of the tibia, the bone is lost at a plurality of penetration sites, The operation time is lengthened by the plate fixing process, and the operation procedure is complicated.

Another prior art is disclosed in U.S. Patent Application No. 2013-51692 (Treatment of anterior cruciate ligament insufflation using tibial plateau osteosynthesis), including: (a) bone resection to reduce the tibial plateau angle; (b) depressing a bone cartilage piece after wedge-shaped osteotomy; (c) fixing the depressed osseous cartilage and tibia with a K wire.

In the prior art, since a large amount of bone fragments are removed in the process of removing the wedge-shaped bone pieces necessary for the depression, a problem occurs due to the reduction in the size of the tibia. In the incisional portion of the upper tibia and the non- There is a problem of imbalance of the left and right legs because the tibial upper part is not smooth because of a difference in height and is lowered by the depth of depression.

The present invention has been made to solve such problems,

Because it is fixed by naturally growing bone without using a separate plate, multiple bone screws or fixation wire, treatment that minimizes tibial damage can be performed, and the treatment process is simple and it is possible to improve adaptability and stability with implantable implants, The present invention provides an implantable implant for the treatment of anterior cruciate ligament insufficiency and a treatment method using the same.

The present invention relates to a tibial support for supporting anterior cruciate ligament insufficiency in an animal excluding a human being, Wherein the implantable implant comprises a tibial support having a wedge shape having an inclined surface of an upper light-tight barrel on a rectangular body, and a tibial support having a plurality of projections on the inclined surface of the tibial support, And a bone formation inducing portion to which a porous body having micropores of the bone formation is attached.

Also, the tibia support part is made of titanium or stainless steel.

The bone formation inducing part is made of titanium powder.

The micropores of the bone formation inducing part may have a size of 200 to 500 탆.

The bone formation inducing part is formed on both sides of the tibia support part so as to protrude in a semicircular shape.

And a coating layer made of hydroxyapatite or BMP (Bone morphologic protein) is formed in the micropores of the bone formation inducing part.

And an engaging hole is formed through the tibial support portion and the bone formation inducing portion.

A method of treating anterior cruciate ligament (adrenal insufficiency) in an animal other than a human, comprising the steps of (S-1) preparing an implantable implant consisting of a wedge-shaped tibia supporter and a porous bone inducer, A step (S-2) of cutting the tibia to form a cut surface, a step (S-3) of moving the cut front tibia forward by inserting an implant into the cut surface of the tibia, (S-4), and a step (S-5) in which the bone developed on the cut portion of the tibia is infiltrated and stabilized in the bone formation induction portion of the implant.

Further, the step (S-2) of forming the cut surface may further include a step (S-2 ') of forming an insertion hole through the drill bit in the upper part of the tibia so that the bone formation inducing part can be inserted.

Further, the step (S-2) of forming the cut surface is characterized by cutting in a range in which the tibia is not completely separated.

Since the present invention does not use a fixing member composed of a separate plate, a plurality of bone screws, or fixing wires, it is possible to reduce the cost of the fixing member and minimize the damage to the tibia.

In addition, since the treatment process is performed only by incision and simple insertion, the treatment process is simple and it is possible to perform the procedure without difficulty even for an unskilled practitioner.

In addition, since it is fixed by the natural bone growing at the incision site of the tibia, it has the effect of improving the adaptability and stability with the implantable implant and reducing the side effect.

1 is a perspective view of an implantable implant of the present invention.
2 is a view showing a state in which the implantable implant of the present invention is inserted into the incised tibia;
Figure 3 is a view from above the tibia with the inserted implant of the present invention inserted into the incised tibia;
4 is an exemplary view in which an engaging hole is formed in the implantable implant of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The implantable implant (10) of the present invention comprises a tibia support (20) which is inserted into an incision and supported on a tibia site for treatment of anterior cruciate ligament insufficiency occurring in an animal other than a human. And a bone formation inducing part 30 for forming a bone inside,

The implantable implant 10 includes a tibia support portion 20 having a wedge shape having an inclined surface of an upper light-tight barrel on a rectangular body and a porous body having a plurality of fine holes formed on the inclined surface of the tibia support portion 20 And a bone formation inducing part (30).

In general, tibial tuberosity, which is used for the treatment of anterior cruciate ligament, is a method of providing stability of the joint motion by offsetting the forward shear force by setting the angle of the articular surface of the standing dog and the anterior cruciate ligament as 90 °, Conventionally, the front part of the tibia has been completely incised and moved forward, and a surgical method of fixing the tibia through a fixing member composed of a metal plate and a bone screw has been mainly used. However, these surgical methods have problems in that the operation procedure is complicated, the skill of the practitioner is required to be high, and that a large number of bone screws penetrate the tibia, which weakens the tibial part and lowers the stability of the treatment.

The implantable implant 10 of the present invention can be used as an implantable implant 10 without using a separate fixation device (plate, bone screw) while moving the anterior tibia incised by insertion only after cutting a part of the anterior portion of the tibia. Since the bone is grown inside the osteogenesis inducing portion 30 at the cut surface contacting with the osteogenesis inducing portion 30 made of porosity of the porous implant, the implant is fixed while being fused with the tibia, so that the stability of the implantable implant 10 is improved and the treatment process is simple.

The tibia supporter 20 of the present invention is made of a metallic material such as titanium or stainless steel and has a wedge shape that narrows downward at a predetermined angle so as to be inserted in a state in which it is completely in close contact with both incised end surfaces.

2, the inclined surface of the tibia support portion 20 is formed to be about 5 to 20 degrees so as to maintain an angle of 90 degrees between the contact surface of the joint and the anterior cruciate ligament when inserted into the incised tibia front portion, This can be changed as much as possible depending on the tibial state of the dogs and the range of movement of the anterior tibia.

The bone formation inducing part 30 of the present invention is made of a metallic material composed of porous titanium powder and is formed to protrude in both side directions of the tibia support part 20, that is, in the direction of the cutting surface when inserted into the cut tibia. As shown in FIG. 3, the bone formation induction unit 30 is formed in a semicircular shape. The bone formation induction unit 30 is formed by drilling an insertion hole at the center of the incision through the drill bit at the upper part of the tibia, When the incised tibia is displaced forward, it becomes a semicircular shape. When the insertion type implant (10) is inserted, the osteogenesis inducing portion (30) is inserted into the insertion hole formed in the tibia, Position.

The osteogenesis inducing unit 30 serves as a bone conduit so that the size of the micropores is 200 to 500 탆 and the osteophytes of the primary tibia can be grown after the operation, The new bone is entirely grown on the porous part of the implant and is naturally fused with the tibia, thereby enhancing the stability of the implant 10 with the implant.

In addition, hydroxyapatite or bone morphologic protein (BMP) may be added to the micropores of the bone formation inducing part 30 to promote conduction and bone formation with the bone that grows without using only one material of the bone formation inducing part 30. [ May be further formed.

The implantable implant 10 of the present invention can be fixed without a separate fixation wire or bone screw, but in order to further improve the fixation stability, a fixation wire or a bone screw is inserted in the center as shown in FIG. An engaging hole 40 penetrating the tibial support 20 and the bone formation inducing part 30 may be formed.

A treatment method using the implantable implant having the above-described structure will be described below.

The method of treatment using an implantable implant of the present invention is a method of treating anterior cruciate ligament adventitia in an animal other than a human,

A step (S-1) of preparing an implantable implant 10 comprising a wedge-shaped tibia support 20 and a porous bone formation inducing part 30 and a step of cutting the front part of the tibia diagonally to form a cut surface (S-2), a step (S-3) of moving the anterior tibia cut forward by inserting an implant into the cut surface of the tibia, a step (S-4) of fixing the cut tibia and the implant And a step (S-5) in which the bone developed on the cut portion of the tibia is infiltrated and stabilized in the bone formation inducing portion 30 of the implant.

In the step (S-1) of preparing the implantable implants 10, the state of the object to be treated and the range of movement of the tibia are checked to select the implantable implant 10 of a suitable size. Next, the procedure proceeds to a step S-2 where the front part of the tibia is cut diagonally to form a cut surface. At this time, it is preferable that the tibia is incised not to completely separate the front part of the tibia. This is to fix only the implant 10 without using a separate fixation plate.

The step (S-2) of forming the cut surface includes forming an insertion hole having the same shape as the bone formation inducing part 30 through the drill bit at the upper part of the tibia so that the bone formation inducing part 30 can be inserted The insertion type implant 10 and the incised tibia can be made of a synthetic resin such that the bone formation induction part 30 protruding from the insertion type implant 10 is inserted into the insertion hole formed in the tibia, So that it can maintain its position without moving separately.

(S-3), wherein the inserted tibia is moved forward by inserting the implant into the cut surface of the tibia, and the insertion type implant 10 is moved forward And the moving distance is determined in accordance with the shape of the implantable implant 10.

When the front portion of the tibia is moved forward by the insertion-type implant 10 as described above, it is fixed through the step (S-4) of fixing the cut tibia and the implant so as to maintain this state, The method used is to fix the legs from the outside through a compression bandage or a plaster cast after the suture. In order to improve the fixation stability, the insertion type implant (10) and the incised tibia are fixed integrally in front of the tibia The fixing wire or the bone screw may be inserted and fixed through the insertion hole.

After the insertion of the implant 10 and the tibia is completed, the treatment is completed through the step S-5 where the bone is introduced into the bone formation inducing portion 30 of the implant 10 and stabilized. After about 10 to 16 weeks have elapsed until the bone is completely penetrated into the bone formation inducing part 30, the bone is completely fixed by the bone formed in the bone formation inducing part 30 when the treatment is completed.

As described above, the implantable implant for treating the anterior cruciate ligament of the present invention and the treatment method using the same are fixed by the naturally growing bone without using a separate plate, a plurality of bone screws, or fixing wires, Minimizing treatment is possible, the treatment process is simple, and it has the effect of reducing the side effect by increasing the adaptability and stability with the implantable implant (10).

While the present invention has been described with reference to the exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

10: implantable implants
20: tibial support
30:
40: engaging hole
S1 ~ S5: Treatment with implantable implants

Claims (10)

And a tibial support (20) which is inserted and supported in the incision of the tibial region for the treatment of anterior cruciate ligament insufficiency occurring in an animal other than a human. And a bone formation inducing part 30 for forming a bone inside,
The implantable implant 10 includes a tibia supporter 20 having a wedge shape having an inclined surface of an upper light-
And a bone formation inducing portion 30 having a porous body having a plurality of fine holes formed on an inclined surface of the tibial support portion 20. The bone formation inducing portion 30 protrudes in a semicircular shape on both sides of the tibial support portion 20 The implantable implants for the treatment of anterior cruciate ligament insufficiency.
The method according to claim 1,
Wherein the tibial supporter (20) is made of titanium or stainless steel.
The method of claim 1, wherein
Wherein the bone formation inducing part (30) is made of titanium powder.
delete delete delete The method according to claim 1,
Wherein an engaging hole (40) is formed through the tibial support (20) and the bone formation inducing part (30).
In a method for treating anterior cruciate ligament adventitia in an animal other than a human,
A step (S-1) of preparing an implantable implant comprising a wedge-shaped tibia support portion and a porous bone formation induction portion,
A step (S-2) of cutting the front part of the tibia diagonally to form a cut surface,
A step (S-3) of inserting an implant into the cut surface of the tibia and moving the cut front tibia forward;
A step (S-4) of fixing the cut tibia and the implant,
The step (S-2) of forming the cut surface includes a step (S-2) in which the bone formed on the cut part of the tibia is infiltrated into the bone formation inducing part of the implant and stabilized. Further comprising the step of forming an insertion hole (S-2 ') through the drill bit in the upper part of the implant.
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