Bipolar electric coagulation forceps of brain model for experimental animal and preparation method of bipolar electric coagulation forceps

A bipolar electrocoagulation forceps, laboratory animal technology, applied in veterinary surgery, packaging item types, medical science and other directions, can solve problems such as high cost and complex process, achieve adhesion, good biocompatibility, and avoid mutual effect of influence

Active Publication Date: 2020-03-20
徐隋意
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

This technical solution involves the transformation of structure and materials, which is not only complicated in process, but also high in cost

Method used

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  • Bipolar electric coagulation forceps of brain model for experimental animal and preparation method of bipolar electric coagulation forceps
  • Bipolar electric coagulation forceps of brain model for experimental animal and preparation method of bipolar electric coagulation forceps
  • Bipolar electric coagulation forceps of brain model for experimental animal and preparation method of bipolar electric coagulation forceps

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Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] refer to figure 2 and 4 Shown:

[0036] A bipolar electrocoagulation tweezer for a brain model for experimental animals and a preparation method thereof, a bipolar electrocoagulation tweezer for a brain model for experimental animals, including left and right tweezers rods, and tweezers fixed on the head of the tweezers rod The tip is characterized in that there is a mesh disc structure between the tweezers bar and the tweezers tip between the left and right tweezers bars or on the outside of the tweezers bars.

[0037] The mesh disk structure is braided by nickel-titanium alloy wire material, and the mesh disk structure is coated with or embedded with an anticoagulant drug, wherein the anticoagulant drug is heparin, etc.; the drug passes through Coated with a biocompatible carrier, selected from L-polylactic acid (PLLA).

[0038] The specific preparation method includes: first weaving the nickel-titanium alloy wire material to form a mesh disk structure; then takin...

Embodiment 2

[0040] refer to image 3 and 4 Shown:

[0041] A bipolar electrocoagulation tweezer for a brain model for experimental animals and a preparation method thereof, a bipolar electrocoagulation tweezer for a brain model for experimental animals, including left and right tweezers rods, and tweezers fixed on the head of the tweezers rod The tip is characterized in that there is a mesh disc structure between the tweezers bar and the tweezers tip between the left and right tweezers bars or on the outside of the tweezers bars.

[0042] The mesh disk structure is braided by nickel-titanium alloy wire material, and the mesh disk structure is coated with or embedded with an anticoagulant drug, wherein the anticoagulant drug is heparin, etc.; the drug passes through The coating is carried out with a biocompatible carrier selected from polyglycolic acid (PGA).

[0043] The specific preparation method includes: first weaving the nickel-titanium alloy wire material to form a mesh disk stru...

Embodiment 3

[0045] refer to figure 2 , 3 and 4 as shown:

[0046]A bipolar electrocoagulation tweezer for a brain model for experimental animals and a preparation method thereof, a bipolar electrocoagulation tweezer for a brain model for experimental animals, including left and right tweezers rods, and tweezers fixed on the head of the tweezers rod The tip is characterized in that two mesh disk structures from the tweezers to the tweezers are arranged between the left and right tweezers or on the outside of the tweezers, which are respectively located on the left tweezers and the right tweezers, and the two mesh disk structures They are respectively located at different positions on the tweezers.

[0047] The mesh disk structure is braided by nickel-titanium alloy wire material, and the mesh disk structure is coated with or embedded with an anticoagulant drug, wherein the anticoagulant drug is heparin, etc.; the drug passes through Coated with a biocompatible carrier, selected from L-...

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Abstract

The invention relates to the technical field of preparation of medical animal experiment instruments, in particular to bipolar electric coagulation forceps of a brain model for an experimental animaland a preparation method of the bipolar electric coagulation forceps. The bipolar electric coagulation forceps comprise a left forceps rod, a right forceps rod and forceps tips fixed to the heads of the forceps rods, one or more forceps rod-forceps tip net-shaped disc structures are arranged between the left forceps rod and the right forceps rod or on the outer sides of the forceps rods, the net-shaped disc structures can serve as the forceps rods or buffer components between the forceps rods and contact walls, meanwhile, the net-shaped disc structures contain one or more anticoagulant or vascular smooth muscle cell hyperplasia inhibiting drugs, the problems of adhesion and the like can be solved, and the biocompatibility is good. The preparation method is simple, the bipolar electric coagulation forceps can be additionally used on various known bipolar electric coagulation forceps structures, and specific experiment application is facilitated.

Description

technical field [0001] The invention relates to the technical field of preparation of medical animal experimental instruments, in particular to a bipolar electrocoagulation tweezers for experimental animal brain models and a preparation method thereof. Background technique [0002] Bipolar coagulation began to be used as early as 1940. In 1966, Yasargil applied bipolar coagulation to microsurgery to discharge blood coagulation on microvessels. Its working principle is to connect the main body of the electrocoagulator through the tweezers wire, the tip of the tweezers clamps the bleeding port, the electrocoagulator releases the current, forms a circuit between the two tweezers, and provides high-frequency electric energy to the lesion tissue, making the bipolar The blood vessels between the two ends of the forceps are dehydrated and coagulated. Since the current only flows between the two tweezers, it will not cause burns to other parts, so it is very suitable for various ty...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61D1/00A61L31/16A61L31/10A61L33/00
CPCA61D1/00A61L31/10A61L31/16A61L33/0011A61L2300/232A61L2300/42C08L5/10C08L67/04
Inventor 徐隋意李常新吴晓巍李羚
Owner 徐隋意
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