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New polymer material built-in LED light source spine minimally invasive expandable channel system

A polymer material, LED light source technology, applied in dilators, medical science, surgery, etc., can solve the problems of damage and replacement costs of fixed arms, inconvenient force for opening forceps, and inability to grasp the depth of insertion when opening the sleeve. The effect of reducing equipment manufacturing and replacement costs, reducing cross-infection, and reducing costs

Active Publication Date: 2015-10-07
BEIJING ZHONGNUO HENGKANG BIOTECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to solve the problems in the general spinal minimally invasive surgery system that the insertion depth cannot be grasped by the expansion sleeve, the single bottom of the working sleeve structure cannot be expanded on demand, the force is inconvenient to use the expansion forceps, and the fixed arm is damaged and the replacement cost is high. The present invention provides a The insertion depth of the expansion sleeve is easy to control, the bottom of the working sleeve can be expanded and fixed as needed, and the built-in optical fiber is easy to use for the expansion forceps, and the manufacturing and replacement costs of the fixed arm are new polymer materials. Built-in LED light source. system

Method used

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  • New polymer material built-in LED light source spine minimally invasive expandable channel system
  • New polymer material built-in LED light source spine minimally invasive expandable channel system
  • New polymer material built-in LED light source spine minimally invasive expandable channel system

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Embodiment Construction

[0030] like Figure 1-Figure 8 As shown, the novel polymer material built-in LED light source spinal minimally invasive expandable channel system consists of a distraction sleeve 1 , a working sleeve 2 and a fixed arm 3 .

[0031] like figure 1 As shown, the stretching sleeve 1 is used to place the incision of the target surgical part of the patient, and then insert the working sleeve 2 after stretching the surgical area. Starting from the bottom of the cone, color identification sections of different lengths are set, which are green 5cm, pink 1cm, yellow 1cm, and blue 3cm. The different color identification sections are different from the scale, so that the approximate range of insertion depth can be quickly determined, and it is easy to grasp the insertion depth. The rear end of the expansion sleeve 1 is provided with a plurality of anti-slip segments, which can effectively increase the convenience of use and facilitate the insertion of the expansion sleeve 1. The expansion...

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Abstract

The invention discloses a novel high polymer material spine minimal invasion expandable channel system with internally arranged LED light sources for minimally invasive spine surgery. The system comprises an opening cannula, a working sleeve and a fixing arm which are made of medical high polymer materials. The working sleeve is formed by movably riveting tops of walls of two working sleeve tubes, and connection handles are further arranged at the tops of the walls of the working sleeve tubes and connected with the fixing arm. LEDs are further arranged in the working sleeve, cell boxes are arranged on the connection handles, and switches are arranged on the cell boxes. Color identification sections are arranged on the opening sleeve, the bottom of the opening sleeve is tapered, and anti-skidding sections are arranged at the top of the opening sleeve. According to the novel high polymer material spine minimal invasion expandable channel system, the opening cannula implanting depth is easy to control, and the opening cannula is convenient to implant manually; the opening sleeve can be opened from the upper portion to expand the bottom area, and the internally arranged LEDs facilitate lightening in the working sleeve; and stretching outer handles and arc structures are arranged on two handles of opening pliers respectively, so that the utilization is facilitated; and equipment is low in manufacturing and exchanging cost and disposable, so that the possibility of cross infection in surgery is reduced.

Description

technical field [0001] The invention relates to a minimally invasive spinal surgery system, in particular to a minimally invasive expandable spinal channel system with a built-in LED light source in a novel polymer material. Background technique [0002] Commonly used surgical instruments in existing spinal minimally invasive surgery systems include distraction sleeves, working sleeves, fixed arms, and spreader forceps. Generally, the function of distraction sleeves is limited to step-by-step insertion along the incision to expand the surgical work. However, it is difficult to judge whether the cannula has reached the surgical area after it is inserted into the body, and the outer end of the first placed distraction cannula has no suitable parts for grasping, which makes it inconvenient to insert the cannula; the working sleeve is fixed The columnar structure has a single structure, and in minimally invasive surgery, it is often necessary to expand the bottom of the target o...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B17/56A61M29/00
Inventor 毛克亚
Owner BEIJING ZHONGNUO HENGKANG BIOTECH
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