Reposition device for femoral shaft fracture

A reset device and femoral shaft technology, applied in the field of surgical robots, can solve problems such as secondary damage to the human body, affect intraoperative perspective, and interfere with surgical operations, and achieve the effects of low cost, compact structure, and avoiding repeated operations

Inactive Publication Date: 2016-03-23
南京医科大学附属南京医院
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For most doctors, closed reduction based on experience is not an easy job, and it is more challenging to maintain a satisfactory closed reduction state for a long time. Until today, how to avoid loss of reduction during surgery is still a problem in trauma orthopedics. Physician's Dilemma
In view of this, domestic and foreign scholars began to study mechanically assisted

Method used

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  • Reposition device for femoral shaft fracture
  • Reposition device for femoral shaft fracture
  • Reposition device for femoral shaft fracture

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Embodiment Construction

[0034] The technical solution of the present invention will be described in detail below in conjunction with the accompanying drawings.

[0035] Such as figure 1 As shown, a reset device for femoral shaft fractures, the reset device includes base fastening screw 1, base 2, motor A3, motor B4, motor C5, I-shaped frame 6, right column 7, left column 8, right Wheel 9, left wheel 10, bearing with seat 11, reset frame 12, rear tube 13, front tube 14, rear translation bracket 15, front translation bracket 16, fixing clip 17, tightening screw 18, lasso 19, vertical Straight locking screw 20 and horizontal locking screw 21; the base 2 is fixed on the traction bed in the operating room by the fastening screw 1, and the motor A3, motor B4 and motor C5 are respectively fixed on the driving platform 201 of the base 2, and the driving platform 201 is Each motor is respectively equipped with a lasso support 202, and the base 2 is welded with a square guide rail 203; the left column 8 and t...

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Abstract

A reposition device for femoral shaft fracture is characterized by comprising base fastening screws, a base, a motor A, a motor B, a motor C, an H-shaped frame, a right stand column, a left stand column, a right wheel disc, a left wheel disc, a base-carrying bearing, a reposition frame, a rear square pipe, a front square pipe, a rear horizontal-movement support, a front horizontal-movement support, a fixed clamping piece, a tightening screw, ropes, a vertical locking screw and a horizontal locking screw; the reposition device simulates an F-shaped repositor and can be used for reposition of the front position, the back position and lateral positions of a femoral shaft; the ropes are selected as the transmission part of the reposition device, and the transmission part is of a dual-rope structure. By means of the reposition device, femoral shaft fracture reposition can be met on the premise that X-ray imaging is not shielded, percutaneous fixation is achieved and secondary damage does not exist, and a preparation is made for subsequent intramedullary nail implantation; the invention further provides a reposition method of the reposition device, the method is easy to operate, and femoral shaft fracture reposition can be achieved.

Description

technical field [0001] The invention relates to the field of surgical robots, in particular to an auxiliary device for closed reduction of femoral shaft fractures. Background technique [0002] With the advent of BO (Biological Osteosynthesis) era, closed reduction and intramedullary nailing has become the gold standard treatment for femoral shaft fractures, the core of which is minimally invasive or non-invasive closed reduction. During the operation, the broken end of the fracture is fully retracted along the long axis of the femur with the help of a traction table or a spreader, and then the doctor uses manipulation or instrumentation to obtain a temporary reduction, so that a golden finger or a guide wire can be inserted, and the intramedullary nail can be inserted after reaming. Finally, the interlocking is completed, and the whole operation is completed under the monitoring and guidance of the C-arm machine perspective. This brings iatrogenic radiation harm to doctors...

Claims

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Application Information

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IPC IPC(8): A61B17/60
CPCA61B17/60A61B2017/564
Inventor 梁斌
Owner 南京医科大学附属南京医院
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