Pressurized kirschner wire

A Kirschner wire and needle body technology, which is applied in the field of pressurized Kirschner wires, can solve the problems of inability to obtain mechanical stability, delayed fracture healing time, and infection of granulation at the entrance of the needle, so as to reduce granulation hyperplasia and reduce skin and soft tissue infections. , the effect of reducing the fracture line

Pending Publication Date: 2020-08-25
SOOCHOW UNIV AFFILIATED CHILDRENS HOSPITAL
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In terms of mechanical stability, the mechanical strength of cancellous bone and cortical bone is different, and the current clinical use of Kirschner wires with the same thickness before and after can not obtain the best mechanical stability
[0004] Moreover, when the existing clinical use of Kirschner wires is used for fixation, only the two ends of the fracture are penetrated and connected, which cannot press the two ends of the fracture during the needle insertion process, and cannot achieve the purpose of reducing the separation and displacement of the broken ends of the fracture. At the same time, the current clinical use of Kirschner wires is a non-absorbable material for the human body. After the treatment is completed and the Kirschner wires are removed, there are complications such as secondary infection and bleeding in the residual Kirschner wires.
[0005] Moreover, in the prior art, the thickness of the Kirschner wire is consistent before and after the use of the Kirschner wire. After the Kirschner wire is used for fixation, there is a risk that the needle tail will continue to move forward after being squeezed; Complications and risks of skin and soft tissue infection and granulation hyperplasia at the needle site

Method used

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  • Pressurized kirschner wire
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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] see Figure 1-2 , the present invention provides a technical solution: a pressurized Kirschner wire, comprising a Kirschner wire body, the Kirschner wire body has a needle tip portion 1, a needle body detail portion 2, a needle body transition portion 3 and a needle body rear portion 4, the needle body Both the body transition part 3 and the needle body rear part 4 have an outer layer and an inner core, and the outer layer covers the inner core.

[0028] In this embodiment, when the Kirschner wire body is made of uniform material, the outer layer and the inner core of the needle body moving part 3 and the needle body rear part 4 are made of uniform material, and any point has the same physical and chemical properties.

[0029] In this embodiment, when the Kirschner wire body is made of non-uniform material, the outer layer of the needle body transition part 3 and the needle body rear part 4 is made of non-absorbable material, and the inner core is made of absorbable mat...

Embodiment 2

[0031] see Figure 1-2 , the present invention provides a technical solution: a pressurized Kirschner wire, comprising a Kirschner wire body, the Kirschner wire body has a needle tip portion 1, a needle body detail portion 2, a needle body transition portion 3 and a needle body rear portion 4 , the needle tip 1 is a tapered tip, the rear end of the needle tip 1 is connected to the needle body detail 2; The needle body transition part 3 is connected, and the end of the needle body transition part 3 extends to the end of the needle body rear part 4, and the needle body transition part 1 and the needle body rear part 4 are connected to form a smooth cone structure; the needle body travels Both the part 3 and the rear part 4 of the needle body have an outer layer and an inner core, and the outer layer covers the inner core.

[0032] In this embodiment, the Kirschner wire body is a uniform material, which is a metal material or a human body absorbable material, and the specific ma...

Embodiment 3

[0036] When the Kirschner needle body is made of human body absorbable material and human body non-absorbable material, the needle tip part 1 and needle body detail part 2 are made of absorbable material, the needle body rear part 4 is made of non-absorbable material, and the needle body transition part 3 can It is a material that can be absorbed by the human body or a material that cannot be absorbed by the human body. According to clinical needs, the needle body part of the non-absorbable material is removed after a certain treatment time.

[0037] In this embodiment, when the Kirschner needle body is made of human body absorbable material and human body non-absorbable material inside and outside, the needle tip part 1, the needle body detail part 2, the inner core of the needle body moving part 3, and the inner core of the needle body rear part 4 The core is made of absorbable material, and the outer layers of the needle body transition part 3 and the needle body rear part ...

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Abstract

The invention belongs to the field of kirschner wires for fracture fixation, and specifically discloses a pressurized kirschner wire. The kirschner wire includes a kirschner wire body; the kirschner wire body is provided with a needle tip part, a thin needle body part, a needle body transitional part and a rear needle body part; the needle tip part is an imitated cone sharp point, and the rear endof the needle tip part is connected to the thin needle body part; the diameter of the thin needle body part is less than that of the needle body transitional part and the rear needle body part; the rear end part of the thin needle body part is connected to the needle body transitional part, and the end part of the needle body transitional part extends to the end part of the rear needle body part;and the needle body transitional part is connected to the rear needle body part to form a smooth conical surface structure. When the kirschner wire fixes fractures, the broken ends of fractured bonescan be pressurized, the widths of fracture lines can be decreased, stronger mechanical stability can be obtained, and the recovery of fractures can be promoted; and skin soft-tissue infection at needle inserting parts and granulation proliferation during the fixing of the kirschner wire can be reduced, and infection and bleeding caused by residual needle passages after the kirschner wire is removed can be reduced as well.

Description

technical field [0001] The invention relates to the field of Kirschner wires used in orthopedics, in particular to a pressurized Kirschner wire. Background technique [0002] Kirschner wire is a commonly used internal fixation material in orthopedics. It is used to fix small fractures or avulsion fractures and other fractures with low stress. It is also used in the fixation of temporary fracture fragments in orthopedic operations. [0003] The existing clinically used Kirschner wire has a single structure, being only a straight needle, which is inserted into the bone for fixation during use. Taking fractures as an example, when a fracture occurs, the fracture line often passes through the transitional part of the junction of cancellous bone and cortical bone. When a fracture is fixed with a Kirschner wire, it is often necessary to fix the cancellous bone and cortical bone through the fracture line. In terms of mechanical stability, the mechanical strength of cancellous bone...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B17/84A61B17/66
CPCA61B17/846A61B17/66
Inventor 姚峰王晓东甄允方孔庆柱李家勇
Owner SOOCHOW UNIV AFFILIATED CHILDRENS HOSPITAL
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