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A self-lubricating and anti-adhesive structure on the surface of an energy-carrying minimally invasive surgical tool

A scalpel, self-lubricating technology, applied in the direction of heating surgical instruments, etc., can solve the problems of loss of anti-sticking ability and high price, and achieve the effect of reducing additional damage and reducing tissue scab and adhesion.

Active Publication Date: 2017-02-01
BEIHANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

These methods can achieve a certain degree of anti-adhesion, but the adhesion of adhesive tissue will gradually lose this anti-adhesion ability
Moreover, coating materials such as fluoropolymers and gold are expensive, and excessive temperature will cause fluoropolymers to decompose and release toxic gases

Method used

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  • A self-lubricating and anti-adhesive structure on the surface of an energy-carrying minimally invasive surgical tool
  • A self-lubricating and anti-adhesive structure on the surface of an energy-carrying minimally invasive surgical tool
  • A self-lubricating and anti-adhesive structure on the surface of an energy-carrying minimally invasive surgical tool

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Embodiment Construction

[0034] The present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

[0035] figure 1 It is a surgical operating system 1 for energy-carrying minimally invasive surgery, including a radio frequency power supply 11 , a surgical knife control handle 12 and a surgical knife 13 . The radio frequency power supply 11 is a device that generates the energy required for surgery, and the energy generated by it is delivered to the connected surgical tool control handle 12, which controls the surgical tool 13, and the surgical tool 13 is used for hemostasis, cutting and electrocautery separation of soft tissues , The blade face 14 of the scalpel is the main site where adhesions occur in minimally invasive surgery.

[0036] figure 2 — Figure 5 It is several examples of surgical tools in the operating system, including a monopolar electric knife head 131, a monopolar electric knife pen 132, a bipolar electric coagulation...

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Abstract

The invention discloses a surface self-lubricating anti-adhesive structure of an energy carrier minimally invasive operation knife. Micro-nano structures are machined on the surface of the energy carrier minimally invasive operation knife and are regular or irregular micro-structures which are machined on the surface of the operation knife in a micro scale, or a nano scale or a micro-nano scale. The micro-nano structures are micro grooves, micro arrays, micro pore channels and others. The surface acting force of gaps of the micro-nano structures is used for drawing biocompatible liquid to lubricate the surface of the operation knife, and the biocompatible liquid can be used for protecting the soft tissue from making contact with the surface of the operation knife through isolation, so that the liquid makes contact with the soft tissue, the temperature of the surface of the operation knife is effectively lowered, then the situation that the soft tissue adheres to the surface of the operation knife is reduced, the situation that the tissue is damaged due to adhering is reduced, and the safety of an energy carrier minimally invasive operation is improved.

Description

technical field [0001] The invention relates to a self-lubricating and anti-adhesive structure on the surface of an energy-carrying minimally invasive surgical tool, more specifically, a micro-nano structure processed on an energy-carrying minimally invasive surgical tool, and the surface force of the micro-nano structure is used to attract liquid Wet the surface of the surgical knife, and achieve lubrication and isolation with a liquid film, so as to prevent soft tissue adhesion during energy-bearing surgery. Background technique [0002] Energy-carrying minimally invasive surgical knives are mainly used for hemostasis, electrocautery separation and cutting of soft tissues. Energy generating tools such as RF power supply output energy signals to energy-carrying surgical tools such as monopolar electric knife, bipolar electrocoagulation forceps, electric pencil, ultrasonic knife, etc., and then generate electric arc, heat energy, mechanical vibration and other energy, and pe...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B18/12
Inventor 张德远陈华伟张鹏飞张力文
Owner BEIHANG UNIV
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