Anti-rotation intramedullary nail system of proximal femoral bionic arm reconstruction support

A technology of proximal femur and bionic force, which is applied in the field of medical devices, can solve the problems of poor resistance to lateral and inferior oblique shear forces, stress concentration, neglect of the importance of stable support structures, etc., and achieve the effect of avoiding violent implantation

Pending Publication Date: 2018-09-28
张殿英 +3
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] At present, the existing intramedullary nailing system forms a lever-like structure after operation. When treating unstable intertrochanteric fractures, it can completely replace the bone tissue to bear the stress of loading. Poor shear performance
At the level of structural design, the existing intramedullary nail system does not pay attention to the replacement and reconstruction of the normal intertrochanteric part of the proximal femur and the composite structure of the pressure trabecular arm and the tension trabecular arm in the femoral head and neck bones. The importance of the stable support structure of the "ward triangle" formed by the tension trabeculae and the pressure trabeculae

Method used

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  • Anti-rotation intramedullary nail system of proximal femoral bionic arm reconstruction support
  • Anti-rotation intramedullary nail system of proximal femoral bionic arm reconstruction support
  • Anti-rotation intramedullary nail system of proximal femoral bionic arm reconstruction support

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0113] The bionic arm of the proximal femur reconstructs and supports the anti-rotation intramedullary nail system, which includes a main nail 1, a pressure nail 2, and a tension nail. The main nail 1, the pressure nail 2 and the tension nail form a triangular support structure 4.

[0114] The pressure nail 2 is cross-connected with the tension nail, and the front end of the tension nail is provided with a spiral blade 26

[0115] The diameter of the pressure nail 2 is greater than that of the tension nail. The diameter of the pressure nail 2 is 13mm, and the diameter of the tension nail is 8mm.

[0116] A pressure gap 6 is arranged on the tension nail, and the pressure gap 6 is arranged between the intersection joint of the pressure nail 2 and the tension nail and the helical blade 26 .

[0117] The fork groove 5 includes a saddle 29 and side wings 30, the side wings are located on both sides of the saddle, and the outer side of the side wings adopts an arc surface structure....

Embodiment 2

[0132] The front end of the tension nail is provided with a threaded structure 1, there is no pressure gap 6 on the tension nail, and the raised structure 22 is a first-level protrusion. The first-level thickening can adopt a strip thickening structure along the axial direction of the pressure nail 2, a partial thickening, an overall thickening structure, and a ring thickening structure to limit the screwing depth of the tension nail 3. The tail cap adopts a short tail cap, and the end of the tension nail is provided with a pressure groove, and the tail of the short tail cap is pressed into the pressure groove, or the tail cap adopts a long tail cap, and the tail of the long tail cap runs through the tension nail. Others are the same as in Embodiment 1, and the structural schematic diagram refers to Embodiment 1.

Embodiment 3

[0134] The proximal femoral bionic arm reconstruction support anti-rotation intramedullary nail system includes a main nail 1, a pressure nail 2, and a tension nail. The main nail 1, the pressure nail 2 and the tension nail form a triangular support structure 4.

[0135] The pressure nail 2 is cross-connected with the tension nail, and the front end of the tension nail is provided with a helical blade 26 .

[0136] The diameter of the pressure nail 2 is greater than the diameter of the tension nail.

[0137] A pressure gap 6 is arranged on the tension nail, and the pressure gap 6 is arranged between the intersection joint of the pressure nail 2 and the tension nail and the helical blade 26 .

[0138] The fork groove 5 includes a saddle 29 and side wings 30, the side wings are located on both sides of the saddle, and the outer side of the side wings adopts an arc surface structure.

[0139] The main nail 1 includes a proximal section 7 and a distal section 8, one end of the pr...

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Abstract

The invention belongs to the field of medical equipment, and particularly relates to an anti-rotation intramedullary nail system of a proximal femoral bionic arm reconstruction support. The anti-rotation intramedullary nail system comprises a main nail and a pressure nail, and is characterized by further comprising at least one tension nail, wherein the main nail, the pressure nail and the tensionnail form at least one triangular support structure, a near end section and a far end section of the main nail are integrally formed, the near end section is provided with a first nail hole and a second nail hole, the first nail hole fixes the tension nail, and the second nail hole fixes the pressure nail. The anti-rotation intramedullary nail system has the beneficial effects that the system isconsistent with anatomy of the femoral medullary cavity in a lateral position, the main nail of the side bent proximal femoral anti-rotation intramedullary nail can be lengthened even to the overall length of the femoral medullary cavity, and then the system can be used in femoral shaft fracture and multiple femoral fractures, thereby enlarging the use scope; the system effectively prevents the hip joint from inverting, femoral neck from shortening, femoral part from displacing inwardly, and femoral head and neck from rotating and deforming, an internal fixing device is prevented from breaking, loosing and releasing from the femoral neck internal fixing device, a power screw or a screw blade is prevented from cutting out, and femur stress fracture is prevented.

Description

technical field [0001] The invention belongs to the field of medical equipment, and in particular relates to a bionic force arm reconstruction support anti-rotation intramedullary nail system at the proximal end of the femur. Background technique [0002] With the aging population in China, the number of intertrochanteric fractures in the elderly is gradually increasing, accounting for about 50% of hip fractures. The disease makes people lose the ability to move their lower limbs. Conservative treatment requires long-term bed rest. There are many complications, which seriously threaten the lives of patients. Elderly patients are often combined with osteoporosis, and the proportion of unstable intertrochanteric fractures after trauma gradually increases [2] . In the treatment of unstable intertrochanteric fractures, the failure rate of internal fixation is high, and the main internal fixation failure results include: helical blade cut out from the femoral head, coxa varus a...

Claims

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Application Information

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IPC IPC(8): A61B17/72A61B17/76
CPCA61B17/725A61B17/7283A61B17/742
Inventor 张殿英郁凯赵晓涛张晓萌
Owner 张殿英
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