KR101145203B1 - Forceps for laser operation - Google Patents

Abstract

The present invention relates to a forceps for laser treatment, which uses an optical fiber delivery device for cutting, bonding, and coagulating tissue using laser light. Most of them use a light that goes straight, but a reflector is mounted on the optical fiber. It relates to an invention that can perform side surgery by reflecting light.
According to the present invention and the optical fiber passes through; An optical fiber groove formed to expose the optical fiber at one end of the forceps so that a laser can be emitted through the optical fiber at one end of the forceps; An optical fiber fixing device configured to fix the optical fiber to the other end of the forceps; A glass tube coupled to the optical fiber exposed to the optical fiber groove; It includes, The optical fiber exposed to the optical fiber groove is provided with a forceps for laser treatment, characterized in that a plurality of grooves are formed.

Description

Forceps for Laser Procedures {FORCEPS FOR LASER OPERATION}

The present invention relates to a forceps for laser surgery, which uses an optical fiber delivery device for cutting, bonding, and coagulating tissue using laser light. It relates to an invention that can perform side surgery by reflecting light.

 Since the optical fiber is thin, the procedure requires a fixing device to fix the optical fiber and hold it by hand. These devices can use various instruments or devices such as forceps or forceps forceps.

Electrosurgery or harmoniscalpel may be used to perform general tissue incisions, joints, and coagulations. However, recently, laser treatments are effective, and various methods using lasers have been developed. However, the laser treatment to date is limited to the narrow or short use area, the use range is limited.

Thus, in order to use the laser beam as an electrosurgical instrument or a harmoniscalpel, an optical fiber having an equivalent function or performance is required, and development of a special reflector or an apparatus or device that can play an equivalent role in the optical fiber is urgently needed. .

 In order to send the laser light to the 90 degree side through the optical fiber, a reflector is required, and moreover, the laser beam needs to come out in several places in order to operate a long part, such as an electrosurgical instrument or a harmoniscalpel. However, the reflector is mounted at the end of the optical fiber, which is limited to the use of the reflector because only one reflector can be used. The solution is to let the laser beam come out of several places in the fiber at the same time and keep the beam at a certain distance so that the procedure is as if the light is connected.

According to the present invention for achieving the above object, the optical fiber passes through;

An optical fiber groove formed at one end of the forceps so that the optical fiber is exposed to the main body such that a laser is emitted through the optical fiber; An optical fiber fixing device configured to fix the optical fiber to the other end of the forceps; A glass tube coupled to the optical fiber exposed to the optical fiber groove; It includes, The optical fiber exposed to the optical fiber groove is provided with a forceps for laser treatment, characterized in that a plurality of grooves are formed.

The plurality of grooves are preferably any one of V-shape, concave shape and convex shape.

The spacing of the plurality of grooves, the width of the grooves, the depth of the grooves may be selected within the range of 0.01mm to 10mm.

The glass tube is cylindrical in shape, and its cross section is preferably any one of a circle, a triangle, and a rectangle.

The diameter of the glass tube is 0.1mm to 10mm, the length of the glass tube is preferably 1mm to 100mm.

The forceps is preferably in the form of tweezers, forceps, forceps and scissors.

The optical fiber has a thickness of 50 μm to 2000 μm, a length of 100 mm to 1000 mm, and a wavelength of the laser is 300 nm to 20000 nm.

The optical fiber fixing device may be made of a rubber material or a plastic material, and the optical fiber fixing device may be tightened and fixed at the same time as one, or may be tightened using two.

The optical fiber is preferably used at the same time or two can be used separately.

When the laser light is emitted from several places in a straight line at the same time and the laser beam is sent out from both sides at once, heat is transmitted from both sides of the tissue, so the heat transfer effect is excellent, so the tissue is easily cut, bonded and solidified, and the procedure time is also increased. It can be shortened and the procedure can be long, so that the same procedure can be performed, such as an electrosurgical instrument or a harmoniscalpel, and there are advantages in that various procedures can be performed.

On the other hand, it is a very effective laser forceps for cost saving because it allows the glass tube to protect the optical fiber to be replaced so that the glass tube sticks to the tissue due to heat and the procedure is difficult. .

1 is a conceptual diagram of a forceps for laser treatment according to the present invention.
2 is a variant of the present invention.
3 is an enlarged view of an optical fiber groove portion;
4 is a cross-sectional view of a portion of an optical fiber holding device.

An object of the present invention is to cut, coagulate, or bond tissue using one or two optical fibers as forceps for laser treatment. Currently, the method using the optical fiber emits light in the 90-degree direction by using a reflector, and emits light in only one place, and the optical fiber emits light in the 360-degree direction. Because the length can be short, the joint or incision site is difficult to process the long site.

In particular, the junction or incision site is difficult to perform the procedure if performed only on one side has the advantage that the procedure can be performed very easily and conveniently at the same time on both sides.

The method of using such a laser has a limitation in that it cannot cut or suture human tissues such as harmony scalpel using an electrosurgery or ultrasound, and thus can not be sutured.

Forceps for laser treatment according to the present invention is an optical fiber groove formed so that the optical fiber is exposed to the main body 1 so that the laser can be emitted through the optical fiber 7 at one end of the main body 1 and the forceps through which the optical fiber 7 passes. (2) and an optical fiber holding device (5) formed to fix the optical fiber to the other end of the forceps and a glass tube (8) coupled to the optical fiber (7) exposed to the optical fiber groove (2), the optical fiber A plurality of grooves 9 may be formed in the optical fiber 7 exposed to the grooves 2.

The present invention has the advantage of extending the surgical site, such as incision, splicing, coagulation by making a plurality of grooves (9) of short intervals in a straight line in a straight line direction in the straight direction to the light straight out. There are advantages to using 7) to make the laser beam come out from both sides.

 In order to make this incision or splicing using a laser, one optical fiber may be used, but if two are used to apply light heat from both sides, there is an advantage that the heat is uniformly applied on both sides of the tissue and thus can be effectively performed. Using various forceps, forceps, forceps, etc. to fix the optical fiber so that it can be conveniently used, it can be easily grasped with one hand, and the optical fiber fixing device (5) that fixes the optical fiber (7) does not fall back. In order to protect the optical fiber, a protective cable 6 may be used.

In order to simultaneously emit a plurality of laser beams from the optical fiber 7 at the same time, a groove 9 is formed in the optical fiber 7 so that the laser beam is extended for a long time using the light emitted through the groove, or the groove 9 Since the light comes from the opposite direction of the can be used to laser treatment. In addition, to fix the optical fiber, the apparatus or apparatus of FIG. 1 is used, and the handle fixing device 4 can be easily held by the hand.

It is advisable to use two optical fibers to direct the laser beam in both directions, and the optical fiber in the part to be treated is covered with a glass tube (8) to protect it from heat so that the glass tube (8) touching the tissue can protect the optical fiber. do.

As shown in FIG. 1, the groove 9 is formed in the optical fiber by using a grinder, a special laser, or various grinding instruments, and the groove may be used in various forms such as a V-shape or a round circle shape. The reflective side is made of various materials such as metal or nonmetal, and the surface is polished, plated or special coating to improve the reflection efficiency, and the V-shaped cross section is flat or concave round or convex round The circular shape can be used to maximize reflection efficiency or to allow the reflected light to spread out well. This has the same effect on the opposite side of the groove.

In order to fix the optical fiber to forceps, forceps, forceps, etc., an apparatus as shown in FIG. 1 may be used, and an optical fiber fixing apparatus for fixing optical fibers as shown in FIG. 4 in the handle fixing apparatus 4 and simultaneously fixing two optical fibers at the rear. There are 1 (5a) and fiber fixing device 2 (5b), and a protective cable 6 may be used to protect the optical fiber.

In order to perform the procedure on both sides of the procedure, two optical fibers 7 may be used, and as an apparatus for fixing the optical fiber, it may have an internal device as shown in FIG.

On the other hand, when the optical fiber 7 directly touches the tissue, the tissue may adhere to it by heat, so that the optical fiber 7 is covered with a glass tube 8 to protect it. The glass tube 8 can be replaced from the front so that the glass tube 8 can be replaced with a new glass tube through the optical fiber groove 2 shown in FIG. .

As an apparatus for fixing an optical fiber, various forceps, tongs, and the like shown in FIG. 2 can be used in addition to FIG. 1. Further, in order to prevent the laser beam from going forward, the end of the optical fiber 7 may be made into a cone shape, or a conical rod may be attached to the tip end to prevent the laser beam from going forward.

The length of the laser beam or the number of grooves in the optical fiber 7 can be made in various ways, and the glass tube 8 can be made of various materials and can be coated with a special coating on the surface to prevent the tissue from sticking by heat.

Make several grooves 9 in a straight line in the optical fiber 7, and send the laser light through the groove 9 in the direction of 90 degrees, and attach the optical fiber 7 to a device such as forceps or forceps In order to secure the optical fiber 7, the part with the groove 9 is covered with a glass tube 8 to protect the optical fiber 7, and the glass tube 8 is provided at the end of the optical fiber. Allow them to be replaced.

In addition, it has a device for fixing the glass tube (8) and the optical fiber (7) as shown in Figure 1 to enter through the cylindrical tube toward the treatment site.

In order to protect the optical fiber 7 to the rear of the optical fiber fixing device 5, the protective cable 6 is used to protect the optical fiber 7.

The tip of the optical fiber 7 is polished at various angles, such as triangular or square, or conical, so that the laser beam does not go straight.

On the other hand, by placing a reflector rod 10 having various shapes such as a circle, a triangle, a rectangle, etc. in front of the optical fiber 7 to prevent the laser beam from going straight.

 Its structure is naturally contained in the glass tube 8 and can be used without the glass tube 8 when a separate procedure is required, and the optical fiber 7 can be used separately or simultaneously as shown in FIG. Can be used.

The groove 9 of the optical fiber has a V shape and its surface is flat, but it may have a round circular concave shape or a convex shape. The surfaces may be polished to reflect or transmit well, or coated with a special material. The grooves (9) can be used from two to more than 10 in the use of several, and the arrangement in a straight line is a good effect to emit a constant light, and on the other hand it is a non-aligned form It is characterized in that the use of the shape of the end of the optical fiber 7 can be used in various forms, such as circular, elliptic, conical or triangle, square, polygonal.

The shorter the spacing of the grooves 9 of the optical fiber is, the better the effect is. The spacing varies from 0.01 mm to 10 mm, and the width or depth of the grooves 9 can also be used in various widths and depths from 0.01 mm to 10 mm. They can choose to measure the laser output and produce the maximum energy.

The glass tube 8 has a cylindrical shape, and the material is made of a material such as a transparent glass tube or a crystal material with a constant surface and a material such as a special transparent film, and uses a material or a material having high light transmittance. The method of attaching to a handle or tongs is characterized by attaching a cylindrical tube and fixing it or fixing it using a cover, and attaching a rod having a cone, triangle, square, polygon, etc. to the end of the glass tube (8). This can block the laser beam from going straight.

The cross section of the glass tube 8 may be circular, triangular, square or the like, or may be made of other polygons. The glass tube 8 may have a diameter of 0.1-10 mm and a length of 1-100 mm.

The forceps used in the present invention are in the form of tweezers, tongs, forceps and scissors, and may have an optical fiber fixing device 5 and an optical fiber protection cable 6 to fix the optical fiber thereto.

The thickness of the optical fiber (7) can be used from 50um to 2000um, the length can be used in a variety of 100mm-1000mm and the wavelength of the laser used can be used from 300nm to 20000nm.

The optical fiber fixing device 5 may be made of a rubber material such as silicon or a plastic material, and various materials such as metal or non-ferrous metal may be used. The optical fiber fixing device 5 may be tightened and fixed at the same time as one, or two may be used. I can tighten it.

The optical fiber protection cable 6 may be made of a light rubber or plastic material having excellent transparency or opacity, or a flexible cable made of a flexible tube tube inside and a metal tube such as iron, which is twisted like a cochlea.

The optical fiber 7 may use two at the same time or one separately, and may use a probe shape instead of a forceps when using one.

1: Forceps for laser procedure 2: Fiber optic groove
3: fiber optic tube 4: steering wheel fixture
5: fiber optic fixture 5a: fiber optic fixture 1
5b: fiber optic fixture 2 6: protection cable
7: fiber optic 8: glass tube
9: groove 10: reflector rod

Claims (9)

A body through which the optical fiber passes;
An optical fiber groove formed at one end of the forceps so that the optical fiber is exposed to the main body so that a laser can be emitted through the optical fiber;
An optical fiber fixing device configured to fix the optical fiber to the other end of the forceps; And
A glass tube coupled to the optical fiber exposed to the optical fiber groove; Including;
Forceps for laser treatment, characterized in that a plurality of grooves are formed in the optical fiber exposed to the optical fiber groove. The method according to claim 1,
The plurality of grooves are laser forceps, characterized in that any one of the V-shape, concave shape and convex shape. The method according to claim 1,
The spacing of the plurality of grooves, the width of the grooves, the depth of the grooves can be selected from within the range of 0.01mm to 10mm laser forceps. The method according to claim 1,
The glass tube has a cylindrical shape, the cross section of the forceps for laser treatment, characterized in that any one of a circle, a triangle and a square. The method according to claim 1,
The diameter of the glass tube is 0.1mm to 10mm, the length of the glass tube is a laser surgical forceps, characterized in that 1mm to 100mm. The method according to claim 1,
The forceps are laser forceps, characterized in that any one of the form of tweezers, forceps, forceps and scissors. The method according to claim 1,
The thickness of the optical fiber is 50㎛ to 2000㎛, the length is 100mm to 1000mm, the wavelength of the laser is laser treatment forceps, characterized in that 300nm to 20000nm. The method according to claim 1,
The optical fiber fixing device may be made of a rubber material or a plastic material, the optical fiber fixing device is a forceps for laser treatment, characterized in that can be tightened at the same time as one or fixed by using two. The method according to claim 1,
The optical fiber is a forceps for laser treatment, characterized in that two or at the same time can be used separately.

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