KR20140140726A - Laser fiber for medical device - Google Patents

Abstract

The present invention relates to a laser fiber. More specifically, in a medical laser device, a laser fiber is allowed to reduce procedure time while conveniently operating the procedure because an illumination angle of laser beam from the fiber becomes larger by expanding the cross section on the end structure of a procedure part of the fiber for delivering laser beam. The laser fiber for medical devices in the present invention comprises a laser generated from a laser generator; and a fiber for delivering the laser to an area in which procedure is made, having effects of making the area on which laser is illuminated larger.

Description

[0001] LASER FIBER FOR MEDICAL DEVICE [0002]

Medical laser treatment machines are used for various purposes such as cosmetics, wound healing, skin irritation, and hair removal. Especially for cosmetic use, it is used for various purposes such as skin peeling, acne treatment and scar removal. The present invention relates to a medical device for performing a surgical procedure on a skin tissue using a laser, and more particularly, to a method for effectively expanding an irradiation area of a laser beam transmitted to a fiber site.

   Recently, the use of lasers in dermatology and surgery has been a common trend. In medical practice, laser procedures are performed in various ways, such as incision of the skin tissue, hemostasis, pain relief, tattoo removal, and skin peeling. As described above, the laser beam used in the medical treatment is generated in the laser generating apparatus as a high output laser. Since the high-power laser beam generated by the laser generator is difficult to be delivered directly to the patient, a laser delivery device capable of delivering the high-power laser beam generated by the laser generator to the patient's treatment site is required. Needs to be.

   First, when we look at the procedure of varicose vein laser surgery, blood from the heart is sent to each organ and tissue in the body along the blood vessel called the artery, and oxygen is supplied to the tissue and back to the heart along the vein. The veins in which blood is depleted and oxygen is depleted are slightly bluish. When the blood goes down to the legs, the pressure from the heart is sufficient, but in order for the blood to rise from the legs to the heart, each time the leg muscles move, the veins are pressed and the small pumping action occurs. In the vein, there is a tissue like a door that is opened only on one side. There are several valves. As these valves open and close, the blood that rises above the valve plate does not go down, but goes up to the valve plate at the next pump action.

In the legs, especially in the lower limbs, the veins are divided into veins, which are veins under the skin, and deep veins, which are the veins in the leg muscles. These veins are connected to each other by the veins connecting the various parts of the legs. And the remaining 10% will come up through the superficial vein. However, due to various causes, the amount of blood in the superficial vein can be increased. In this case, the pressure in the vein is increased, and the vein is stretched to become swollen. The varicose veins are a part of the superficial veins. .

In this way, the venous vein between the cardiac arrhythmia and the superficial venous valve is destroyed, the blood flow is reversed and the disease is caused. If you do not treat at the beginning, the pressure in the veins will increase and the blood vessel size will become thicker, which can lead to an unsightly ulcer in your skin. In order to treat such varicose veins, there is a method of injecting a vasoconstrictor into the blood vessel and an operation method. In surgery, there is a method of extensively resecting varicose veins, which is performed under general anesthesia or spinal anesthesia, In order to overcome these disadvantages and disadvantages, laser beam is irradiated to the blood vessels in which the reflux occurs, which is damaged by laser heat.

   However, since the laser fiber is quite long and hard, the tip is relatively sharp, and when the fiber is inserted directly into the vein, there is a possibility of medical accident that the vein wall is pierced. Therefore, a fiber guiding catheter However, it is somewhat uncomfortable to manipulate the fiber during actual operation and it is not suitable for insertion into the intravenous space.

   As another example, in the field of performing dermal tissue treatment, a laser-based medical device has a structure in which a fiber is inserted into a body and laser light is irradiated to the body tissue to remove the body tissue, destroy the abnormal tissue, Removal procedure. One example of a method using such a laser is a method using a fiber. Specifically, a method of inserting a fiber into a fat layer and emitting a laser through the fiber is a method of irradiating a laser to the fat layer.

However, in the case of laser irradiation through a fiber, since the irradiation angle of the laser irradiated is very narrow, when the laser is irradiated while the fiber is inserted into the fat layer, the laser irradiation surface is narrow and the efficiency of removing the fat is very low. Therefore, in order to perform effective fat irradiation, the operator has to widen the laser irradiation surface by inserting the fiber into the fat layer and moving the fiber back and forth. Therefore, there is a problem that the procedure is still inconvenient even in the case of fat removal using laser.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above problems occurring in the prior art, and it is an object of the present invention to provide a method and an apparatus for widening an irradiation area of a laser irradiated through a fiber after insertion of a fiber into a blood vessel or skin tissue .

   A cannula is provided in a human body insertion portion of the fiber, a cannula portion corresponding to the human body insertion portion is disposed inside the cannula, and a distal end portion of the cannula is opened so that a laser is irradiated through the open portion can do. The outer diameter of the cannula can be appropriately selected and used as needed. According to an embodiment of the invention, the outer diameter of the cannula is in the range of 0.5 to 2 mm, the length is in the range of 5 to 25 cm, and the end of the fiber protrudes by 1 to 2 mm from the distal end of the cannula.

A laser beam can be diffused at the end of the fiber to broaden the irradiation area of the laser beam after the insertion of the fiber into the blood vessel or skin tissue to be treated.

The present invention relates to an effective laser treatment method and apparatus for expanding the angle of irradiation of a laser beam irradiated from a laser beam transmission fiber in a medical laser apparatus to be treated for varicose veins or skin tissue, thereby facilitating the procedure and shortening the procedure time.

1 is a view showing a state in which a laser beam is irradiated at the end of a conventional fiber / optical fiber
2 is a view showing a state in which a laser beam is irradiated at an end of a fiber / optical fiber according to the present invention
3 is a view showing a state in which a laser beam is irradiated at an end of a fiber / optical fiber according to another embodiment of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same components are denoted by the same reference symbols whenever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

 In order to prevent light leakage to the outside, in a fiber in which an inner core portion treated by a jacket treatment as a CLAD layer is optically transmitted, a laser generated in the laser generator is irradiated in the arrow direction do. At this time, the irradiated laser beam is irradiated in a narrow area with straightness, and the effect of the operation in actual operation corresponds to an area less than the sectional area of the fiber sphere.

2 (a), 2 (b), 2 (b), and 2 (b), both sides of the diameter of the fiber are referred to as two c), thereby changing the angle at which the laser beam is irradiated and further enlarging the irradiated area of the laser beam more than the cross sectional area of the fiber gauge. As another example, in order to further enlarge the irradiated area as shown in FIG. 3, a polygonal shape, for example, a flower-like concavo-convex structure is formed on the basis of the center of the fiber sphere in FIG. 3 (a) Shaped concavo-convex structure.

As described above, according to the present invention, an end portion shape inserted into a treatment portion of a fiber for transmitting a laser beam is wider than a sectional area of a diameter of a fiber, and the laser beam is diffused, ≪ / RTI >

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined by the appended claims. It will be possible. The scope of the present invention is defined by the appended claims, and all differences within the scope of the claims are to be construed as being included in the present invention.

100: Fiber for laser beam transmission
110: Fiber
120: Jacket outside the fiber (Clad Clad)
130: laser beam irradiation direction

Claims (3)

A laser generated by a laser generator;
A fiber for transmitting the generated laser to a treatment site;
Wherein a fiber laser beam having a shape larger than that of the fiber optic cross section is formed at a distal end of the fiber to expand the area of the laser beam irradiated to the treatment site in the fiber,
The method according to claim 1,
A fiber having a cross-section wider than the cross-sectional area of the fiber sphere by varying the shape / angle with respect to the half of the fiber sphere
The method according to claim 1,
A fiber having a cross-section larger than the cross-sectional area of the fiber sphere by changing the shape / angle of the polygon with respect to the center of the fiber sphere

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