KR20190015982A - A cobra type femoral stem prosthesis - Google Patents

Abstract

The present disclosure provides a cobra type femoral stem prosthesis. The femoral stem prosthesis for congenital hip dysplasia includes a femoral stem cone, a femoral neck, and a stem body sequentially connected wherein the stem body includes proximal segment of femoral stem, middle segment of femoral stem, and distal segment of femoral stem. The femoral stem cone has a cone shape, one end of the femoral neck is connected with the proximal segment of femoral stem, and there is a deflection angle between the femoral neck and the femoral stem. In addition, the other end of the femoral neck is connected to the major axis end of the femoral stem cone, a surface of the proximal segment of the femoral stem is provided with a plurality of annular microgrooves, and the outer surface of the distal segment of the femoral stem is provided with a plurality of longitudinal lateral ridges extending longitudinally. According to the present invention, the prosthesis is configured in an integrated structure and solves the problems such as abrasion between components, osteolysis, etc. The design of the femoral stem may be applied to the femoral stem for geometric shape of femoral medullary cavity of more than 90% patients. According to the present invention, the anteversion angle is 0-35° or 145-180°. If a patient in surgery can choose appropriate specifications of prosthesis according to his/her own anteversion angle, the operation time is effectively shortened to improve the success rate of the operation. A Ti coating layer is sprayed on the outer surface of the proximal segment of the femoral stem, thereby enhancing the biological compatibility of the prosthesis.

Description

{COBRA TYPE FEMORAL STEM PROSTHESIS}

Field of the Invention The present invention relates to the field of implant articulation, and more particularly, to a cobra-shaped femoral stem implant that is a longitudinal ridge crest configuration with a proximal femoral stem.

Congenital Hip Dysplasia (skeleton) is a disease in which the hip joint is abnormal. The inclination angle of the patient's frontal incline is increased more than that of the normal person. If the surgeon can not select the correct insert according to the patient's frontal incline, it causes a series of problems such as dislocation of the center of rotation due to the instability of the angle of the insertion angle, and complications such as dislocation of the implant, wear of the implant, It is very likely to occur and severely affects the effectiveness of total hip replacement surgery. As a result, the range of activity of the hip joint is reduced, the femoral stem can easily be deformed with the chinchillary elements, and the surgical success rate is low.

Conventional inserts include modular femoral stem inserts and S-ROM inserts. Modular femoral stem inserts are not ideally suited to the Chinese gourd cavity, modular femoral stem inserts are less stable, long-term survival is low, modular femoral stem inserts are difficult to implant and rotate, Big. Due to the modular coupling of the S-ROM insert, there is a greater risk of the insert being cut and metal abrasive dust occurring, affecting the life of the insert. Modular femoral stem inserts and S-ROM inserts have problems such as abrasion and bone erosion between the parts of the tannery, the biocompatibility of the insert is reduced, the cost burden due to parts inventory is large, and the cost is high. Both the modular femoral stem insert and the femoral stem of the S-ROM insert should be set according to the geometric outline and anterior tilt angle of the cavities of the patient, the operation time is prolonged,

It is an object of the present invention to provide a kind of cobra-shaped femoral stem insert, which can be used in conventional inserts to establish inter-part wear, bone erosion problems, low insert biocompatibility problems, large inventory problems, high cost problems, The problem is that the operation time is lengthened, the pain of the patient is increased and the operation rate is low.

In order to solve the above problems, an embodiment according to the present invention provides a cobra-shaped femoral stem insert; The bone femoral stem implant includes a sequentially connected femoral stem taper, a glenoid neck, and a stem body; Wherein the stem body includes a femoral stem proximal end, a femoral stem stop, and a femoral stem fabric; Wherein the stem of the femoral stem has a conical shape, one end of the glenoid neck portion is connected to the proximal end of the femoral stem, and the other end of the glenoid stem is connected to the longitudinal end of the femoral stem taper, And a plurality of longitudinally extending ridge crests are provided on the outer surface of the femoral stem distal end.

Here, the acute angle formed between the axis of the proximal end of the femur stem and the axis of the glenoid cervical portion is 0 ° to 35 ° or 145 ° to 180 °.

Here, a narrow angle of 120 DEG to 140 DEG is formed between the stem body center line and the centerline of the glenoid neck portion.

In this case, four to ten longitudinal side ridge crests are provided on the outer surface of the femoral stem, and a ridge crest height of the longitudinal side ridge crest is 0.55 to 0.65 mm.

Here, the cross-section of the glenoid neck is oval.

Here, the width of the annular fine groove is 1.0 to 1.5 mm, and the depth of the annular fine groove is 0.4 to 0.5 mm.

Here, a Ti coding layer is coated on the outer surface of the femoral stem, and the thickness of the Ti coding layer is 50 to 800 um.

The above-described technique of the present invention has the following unique effects.

According to the above-described technology, the insert according to the present invention adopts the integral type and does not need to assemble the parts, eliminates the problems such as abrasion and bone erosion between the parts, reduces the inventory amount, reduces the cost, . The design of the femoral stem according to the present invention is a femoral stem attached to the geometric shape of the glenoid cavity of more than 90% of the patients. The front inclination angle according to the present invention is 0 to 35 or 145 to 180; During surgery, if the patient is able to select an appropriate size of insert according to the frequency of his or her frontal inclination, the operating time is effectively shortened, the patient's pain is reduced, and the surgical success rate is improved. The Ti coating layer is applied to the outer surface of the femoral stem near the proximal end of the stem according to the present invention to improve the biocompatibility of the insert and the strength, It provides excellent conditions and allows the implant to fully adapt to the patient's gonads, especially for patients with Developmental Dysplasia of Hip (DDH) congenital dislocation of the hip.

1 is a structural view of a cobra-shaped femoral stem implant according to the present invention;
Figure 2 shows another embodiment of a cobra-shaped femoral stem implant according to the present invention.
Figure 3 is a view of a tubular plane of a cobra-shaped femoral stem insert according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

1 to 3, a cobra-shaped femoral stem insert according to the present invention includes a sequentially connected femoral stem taper 1, a sacral portion 2, and a stem body 3. The stem body 3 includes a femoral stem proximal end 4, a femoral stem stop 5, and a femoral stem fabric 6. The femoral stem taper 1 has a conical shape. One end of the glenoid neck portion 2 is connected to the proximal end 4 of the femoral stem and has a gap angle therebetween and the other end of the glenoid neck portion 2 is connected to the longitudinal end of the femoral stem taper 1.

Since a plurality of annular fine grooves 7 are formed on the outer surface of the femoral stem proximal end 4, the contact area between the insert and the bone interface is effectively increased to ensure stability after implantation. In this embodiment, the annular fine groove is preferably a zigzag groove, the groove width is 1.0 to 1.5 mm, and the depth of the annular fine groove is 0.4 to 0.5 mm.

Here, the narrow angle between the axis of the femoral stem tip 4 and the axial line of the sacrum 2 is an angle, the angle is a front inclination angle, the angle is an angle of 0 DEG to 35 DEG or 145 DEG to 180 DEG, The angles are preferably 15 °, 35 °, 145 ° and 165 °.

Further, a narrow angle of 120 ° to 140 ° is formed between the center line of the stem body 3 and the centerline of the glenohumeral portion 2, preferably β = 130 °. This narrowed- It fits well.

Four to ten longitudinal side ridge crests (8) are provided on the outer surface of the femoral stem fabric, preferably eight, to improve the initial stability and anti-ablative ability of the insert. In the present embodiment, the ridge crest height of the longitudinal side ridge crest is 0.55 to 0.65 mm. That is, the outer diameter of the ridge crest in the longitudinal direction is about 1.25 mm larger than the base diameter of the femoral stem.

Here, the cross-section of the glenoid neck (2) is elliptical, increasing the range of motion of the insert and reducing wear between the glenoid neck (2) and the anterior horn bone lining.

Here, a Ti coding layer is coated on the surface of the proximal end of the femoral stem 4, the thickness of the dipping layer is 50 to 100 μm, the porosity is 10 to 80%, and the adhesive strength of the coding layer is larger or smaller than 25 MPa.

The insert according to the present invention can be applied to manufacturers of various sizes, because it is possible to eliminate the problems such as abrasion and bone erosion between components, use of the integral type and assembly of parts, reduction in inventory amount and cost reduction. The design of the femoral stem according to the present invention is a femoral stem suitable for the geometrical appearance of the glenoid cavity of more than 90% of the patients. The front inclination angle according to the present invention is 0 to 35 or 145 to 180; During surgery, if the patient is able to select an appropriate size of insert according to the frequency of his or her frontal inclination, the operating time is effectively shortened, the patient's pain is reduced, and the surgical success rate is improved. The Ti coating layer is applied to the outer surface of the femoral stem near the proximal end 4 according to the present invention to improve the insert biocompatibility and the strength, plasticity and flexibility are consistent with the human skeleton and are excellent for growth and reproduction of bone cells and soft tissues (DDH), and congenital dislocation of the hip (DDH). The most common cause of congenital dislocation of the hip (DDH)

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. It should be regarded as belonging to the protection scope of the invention.

1. Femoral stem taper; 2. Gonadal neck; 3. stem body; 4. Femoral stem near-end; 5. Femoral stem interruption; 6. Femoral stem fabric; 7. an annular fine groove; 8. Ridge crest in the longitudinal direction.

Claims (7)

The femoral stem insert comprises a sequentially connected femoral stem taper, a glenoid neck and stem body, wherein the stem body comprises a cobra-shaped femoral stem implant including a femoral stem tip, a femoral stem stop, and a femoral stem fabric As a result,
Wherein the stem of the femoral stem has a conical shape, one end of the glenoid neck portion is connected to the proximal end of the stem, and the other end of the glenoid stem is connected to the longitudinal axis of the femoral stem taper, Characterized in that a plurality of longitudinally extending ridge crests are provided on the outer surface of the femoral stem at its proximal end on the surface of the femoral stem, . The method according to claim 1,
Wherein an acute angle formed between an axis of the femoral stem at the proximal end of the femoral stem and an axis of the glenoid is 0 ° to 35 ° or 145 ° to 180 °. The method according to claim 1,
Characterized in that a narrowed angle of between 120 [deg.] And 140 [deg.] Is formed between the stem body centerline and the centerline of the glenoid neck. The method according to claim 1,
Wherein four to ten longitudinal side ridge crests are provided on an outer surface of the femoral stem fabric and a ridge crest height of the longitudinal side ridge crest is between about 0.55 and about 0.65 mm. The method according to claim 1,
Wherein the cross-section of the glenoid neck is elliptical. The method according to claim 1,
Wherein the width of the annular fine groove is 1.0 to 1.5 mm and the depth of the annular fine groove is 0.4 to 0.5 mm. The method according to claim 1,
Wherein a Ti coding layer is applied to the outer surface of the femoral stem near the proximal end and the thickness of the Ti coding layer is between 50 and 800 um.

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