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a biological hip

A hip joint, bio-based technology, applied in the direction of hip joints, joint implants, joint implants, etc., can solve the problems of affecting function, uneven elastic modulus, uneven distribution of gaps, etc., and achieve a tight and reliable hooking effect , Good structural mechanical properties, enhance the effect of efficient exchange

Active Publication Date: 2019-02-19
CHONGQING RUNZE PHARM CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, there are very limited reports on the use of hierarchical porous materials in artificial joint replacement prostheses.
This may be mainly due to the fact that the existing porous materials themselves have a significant decrease in structural mechanical strength with the increase in porosity, so the porosity is generally low, the weight is heavy, and the permeability is low, which is not conducive to the removal of substances in human tissues. High-efficiency exchange, poor biocompatibility, poor postoperative healing, etc.
[0004] In addition, the application of bionic artificial bone requires uniform material itself, such as pore size and pore distribution, so that the performance is uniform, but in fact, there are many multi-level porous materials that cannot meet this requirement; although some claim to have reached high Uniformity, but its uniformity is still the uniformity under the large volume scale. If it is measured and compared with the small volume scale, for example, a plurality of three-dimensional bodies whose volume is not larger than one cubic centimeter are randomly selected on the material, and their masses are measured respectively. The difference in uniformity is still very large, so the various properties of the hierarchical porous material are not uniform, such as the uneven distribution of pore size and voids, resulting in uneven distribution of mechanical strength, elastic modulus, etc., resulting in defects such as hidden quality, which seriously affect its function
For example, CN201210185031 discloses a preparation method of a bionic artificial bone with a multi-level (micron / nanometer) pore structure, but the three-dimensional multi-level pore structure obtained by this method still cannot meet the requirements due to the randomness and irregularity of the pore structure. Functional requirements of bionic artificial bone

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0031] As attached to the manual Figure 1-4 As shown, a biological hip joint includes a femoral stem 1, a femoral neck 2, a spring 3 and a buffer pad 16; One side of the lower part of the neck 2 is provided with a barb 4; the femoral stem 1 is split into an upper part 5 and a lower part 6; Connected mounting hole 8; the lower part of the femoral neck 2 is inserted into the L-shaped through hole 7, and the barb 4 is hooked in the transverse hole in the L-shaped through hole 7; a spring 3 is added in the mounting hole 8, and the spring 3 One end bears against the lower part of the femoral neck 2, and a screw 9 connected to the mounting hole 8 is added on the outside of the other end; the upper part 5 of the femoral stem 1 is provided with a filling interlayer 10 that runs through both sides of the handle body, and a filling interlayer that runs through the handle body and is connected with the filling interlayer. 10 connected perforations 11; its filling interlayer 10 is made ...

Embodiment 2

[0043] As attached to the manual Figure 5-6 As shown, a biological hip joint includes a femoral stem 1, a femoral neck 2, a spring 3 and a buffer pad 16; One side of the lower part of the neck 2 is provided with a barb 4; the femoral stem 1 is split into an upper part 5 and a lower part 6; Connected mounting hole 8; the lower part of the femoral neck 2 is inserted into the L-shaped through hole 7, and the barb 4 is hooked in the transverse hole in the L-shaped through hole 7; a spring 3 is added in the mounting hole 8, and the spring 3 One end bears against the lower part of the femoral neck 2, and a screw 9 connected to the mounting hole 8 is added on the outside of the other end; the upper part 5 of the femoral stem 1 is provided with a filling interlayer 10 that runs through both sides of the handle body, and a filling interlayer that runs through the handle body and is connected with the filling interlayer. 10 connected perforations 11; its filling interlayer 10 is made ...

Embodiment 3

[0055] As attached to the manual Figure 7 As shown, a biological hip joint includes a femoral stem 1, a femoral neck 2 and a spring 3; The side is provided with a barb 4; the upper part of the femoral stem 1 is provided with an L-shaped through hole 7, and a mounting hole 8 communicating with the longitudinal hole in the L-shaped through hole 7; the lower part of the femoral neck 2 is inserted into the L-shaped through hole 7 , and the barb 4 is hooked in the transverse hole in the L-shaped through hole 7; a spring 3 is added in the installation hole 8, and one end of the spring 3 is against the lower part of the femoral neck 2, and the other end is additionally connected to the installation hole 8 The screw rod 9; the femoral stem 1 is provided with a filling interlayer 10 that runs through both sides of the handle body, and a perforation 11 that runs through the handle body and communicates with the filling interlayer 10; the filling interlayer 10 is made of a multi-level p...

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Abstract

The invention relates to a biological type hip joint. The hip joint comprises a femoral stem (1) and a femoral neck (2). The hip joint is characterized in that the lower part of the femoral neck (2) is provided with a barb (4), the upper part of the femoral stem (1) is provided with an L-shaped hole (7), and an installing hole (8) communicated with a longitudinal hole in the L-shaped hole (7). The lower part of the femoral neck (2) is inserted into the L-shaped hole (7). The barb (4) is hooked and clamped in a horizontal hole in the L-shaped hole (7). The installing hole (8) is internally provided with a spring (3). One end of the spring (3) is abutted against the lower part of the femoral neck (2), and the outer side of the other end is provided with a screw rod (9) which is connected in the installing hole (8). The femoral stem (1) is provided with a filling interlayer (10) which passes through two sides of a stem body, and a hole (11) passing through the stem body and communicated with the filling interlayer (10). The filling interlayer (10) is made of a hierarchical porous material. The hip joint has relatively high connection stability and biocompatibility, and post-surgery healing effect is better.

Description

technical field [0001] The invention relates to human body joint replacement, in particular to a biological hip joint. Background technique [0002] At present, artificial hip replacement prostheses are mostly designed in one piece. If a single part breaks, such as a neck break, it will lead to the failure of its overall structure and function, which will undoubtedly cause a huge waste. It also lacks a buffer function, and the load in the application is relatively large, the stress condition is poor, and the service life is short. In addition, the existing artificial replacement prosthesis generally has low stability of connection with human biological tissues, and is easy to loosen, rotate and fall off; the biocompatibility is poor, and it is easy to suffer rejection after implantation, and the postoperative healing effect is not good. Good and other common problems. It is difficult to realize all these problems at the same time solely by optimizing the structural design....

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61F2/32A61F2/36
CPCA61F2/32A61F2/3609A61F2/3662A61F2002/30011A61F2250/0023
Inventor 叶雷
Owner CHONGQING RUNZE PHARM CO LTD
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