KR102516835B1 - Catheter for treating varicose veins - Google Patents

Abstract

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Description

Catheter device for treating varicose veins {Catheter for treating varicose veins}

The present invention relates to a catheter device for lower limb venous surgery, and more specifically, in a vascular occlusion method for treating varicose veins, there are various methods such as RF method, Clarivane, laser, and Benacil that have been used recently, but recently developed The present invention relates to a catheter device for lower extremity venous surgery, which is one of the surgical methods of venous vascular occlusion using a sclerosing agent, a laser optical fiber, and a catheter.

Regarding varicose vein treatment methods, there are various methods such as an RF method, Claribane, laser, and Benacil that have recently been used in vascular occlusion methods for treating varicose veins.

Among these various methods, there is a demand for technology development of a method that can reduce the discomfort of the procedure and increase the effect of the procedure by using a sclerosing agent, a laser optical fiber, and a balloon catheter.

Accordingly, in performing a method of treating varicose veins using a laser device and an angiosclerotic agent at the same time in varicose vein surgery, a registered patent uses a catheter with a double lumen and an inflated balloon at the upper end. As a treatment method used, a laser fiber is inserted into one lumen and the drug is injected into the other lumen.

The catheter consisting of a double lumen and a balloon is inconvenient and expensive to operate, so it is convenient to use laser fiber and drugs simultaneously through one lumen by using a structure consisting of a single lumen without a balloon by improving this. There is a demand for technology development of a low-cost catheter device for lower extremity venous procedure.

On the other hand, as a conventional technique, Korean Patent Application Application No. 10-2014-0164471, "Optical Fiber for Heat Generation, and Manufacturing Method thereof" filed by the present applicant is a method of generating heat by irradiating a laser beam to blood vessels with an optical fiber. In this method, the laser beam itself as an energy source overcomes the problem of directly giving energy to blood or blood vessels, and generates only heat without directly irradiating the laser beam into the blood vessels, thereby maintaining a predetermined constant temperature inside the blood vessels to generate excess energy. It is to provide an optical fiber for heat generation, and a method for manufacturing the same, to remove side effects caused by a laser beam having and obtain the same treatment effect as a high frequency.

In the present invention, while using the optical fiber for heat generation provided by the present applicant, a laser device is used in varicose vein surgery and varicose veins are treated using an angiosclerotic agent at the same time. The catheter has a structure that can combine and inject the sclerosing agent through the inner lumen, and the sclerosing agent can be easily injected through the 3-way hub attached to the catheter, and the optical fiber can enter the lumen, and at the same time, the sclerosing agent can be injected through the lumen. It is intended to provide a very convenient structure for delivering to the inside of blood vessels.

Republic of Korea Patent Application Application No. 10-2014-0164471 "Optical fiber for heat generation, and its manufacturing method" Republic of Korea Utility Model Application Application No. 20-2018-0002328 "Laser optical fiber used in blood vessels, and its control device" Republic of Korea Patent Application Application No. 10-2018-0166536 "Medical Catheter Device"

The present invention is intended to solve the above problems. Although there are various methods for treating varicose veins, in the method of performing the procedure through a catheter using an angiogenic agent and a laser fiber, the catheter has a double-structured cylindrical lumen, and the upper end of the catheter has a double structure. There is a dual structure catheter with a groove through which the balloon can be inflated, so that one lumen can pass the laser fiber and the other lumen can pass the vascular hardening agent, and the balloon can be inflated at the upper end. It is an object of the present invention to provide a catheter device for lower extremity venous surgery to improve the catheter method of a double structure as a structure using a single catheter and not using a balloon.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, a catheter device for lower extremity vein surgery according to an embodiment of the present invention is a catheter for varicose vein surgery using a sclerosing agent and a laser optical fiber 151 using a catheter 120 having a single lumen. The front end 110 of the 120 has a plurality of grooves in a 360° direction at a predetermined distance from the end so that the sclerosing agent is injected into the blood vessel, and the catheter 120 has a 3- At the rear end of the catheter 120 to which the 3-way hub 130 is connected and to which the 3-way hub 130 is connected, a built-in silicone stopper with a small groove in the center ( 141) may be characterized in that it has a structure provided.

At this time, the groove in the 360 ° direction formed on the distal end 110 of the catheter 120 is located at a distance from 0.1 mm to 80 mm from the distal end 110 backward, and the diameter inside the catheter 120 is from 0.3 mm to 5 mm. The number of grooves in the 360° direction can be one or two, the direction of the grooves is symmetrical or asymmetrical, and the size of the grooves ranges from 0.01mm to 3mm. It may be characterized in that a black marker is marked up to 80 cm every 1 cm backward from .

In addition, the catheter 120 may be characterized by using a length of 10 cm to 200 cm.

The catheter device for lower extremity venous procedure according to an embodiment of the present invention is coupled to an optical fiber using a catheter having a single tube structure and having a structure capable of injecting an angiosclerotic agent through an inner lumen attached to the catheter. It is possible to easily inject the vascular sclerosing agent through the -way hub, enter the optical fiber into the lumen, and at the same time provide the effect of providing a very convenient structure for delivering the vascular sclerosing agent into the blood vessel through the lumen.

In addition, the catheter device for lower extremity venous procedure according to another embodiment of the present invention has a balloon type compared to the balloon type catheter provided by the previous application of the present applicant, Republic of Korea Patent Application Application No. 10-2018-0166536 "Medical catheter device" Since a catheter is not required and there is no procedure for inflating a balloon, a simple and inexpensive catheter can be used, so a very convenient and effective device that can reduce the patient's cost burden can be provided.

1 is a diagram schematically showing a catheter device 100 for lower extremity vein procedure according to an embodiment of the present invention.
2 and 3 are views showing a catheter device 100 for lower extremity vein procedure according to an embodiment of the present invention.
FIG. 4 is a view for examining the structures of the rocker 140, the built-in silicone stopper 141, and the tightening device 142 in the catheter device 100 for lower extremity venous procedure according to an embodiment of the present invention.

Hereinafter, a detailed description of preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

1 is a diagram schematically showing a catheter device 100 for lower extremity vein procedure according to an embodiment of the present invention. 2 and 3 are diagrams showing a catheter device 100 for lower extremity vein procedure according to an embodiment of the present invention. 4 is a view for examining in detail the structure of the rocker 140, the built-in silicone stopper 141, and the tightening device 142 in the catheter device 100 for lower extremity venous procedure according to an embodiment of the present invention.

First, referring to FIGS. 1 to 3 , the catheter device 100 for lower extremity venous procedure includes a distal end 110, a catheter 120 having one lumen corresponding to the cross section of a cylindrical tube, a tether 120, and a 3-way A hub 130, a rocker 140, a built-in silicone stopper 141, a tightening device 142, and an optical fiber connection device 150 may be included.

Here, the catheter 120 corresponds to a cylindrical straight tube, and the 3-way hub 130 is connected to the side of the rocker 140 formed at the opposite end of the front end 110 of the catheter 120, When closed and opened according to the control of the external control unit (not shown) for the valve, in addition to the one injection route connected to the locker 140, the remaining two injection routes are used as one-component, two-component, or other composites It may be formed for selectively injecting an injection solution containing a vasoconstrictor.

Meanwhile, in one embodiment of the present invention, the length of the catheter 120 may be 10 cm to 200 cm in length, preferably 50 cm to 120 cm, and the valve attached to the hub connection tube 131 for injecting the vasoconstrictor is In addition to the aforementioned 3-way, various types such as 1-way and 4-way may be used.

More specifically, in order to carry out the present invention, a catheter 120 having one lumen is used, but the front end 110 formed at the front end of the catheter 120 is spaced apart from the end by a predetermined distance in a 360 ° direction. n (n is a natural number of 2 or more) grooves are made so that the sclerosing agent is injected into the blood vessel, and a 3-way hub 130 for injecting the sclerosing agent is connected to the back of the catheter 120. It is preferable that the rear end of the catheter 120 to which the hub 130 is connected is provided with a built-in silicone stopper 141 having a small groove in the center to prevent the flow of the sclerosing agent to the rear.

Here, the groove in the 360 ° direction formed on the distal end 110 of the catheter 120 is located at a distance from 0.1 mm to 80 mm from the front end of the distal end 110, and the diameter of the catheter 120 is from 0.3 mm to 5 mm. It is preferable to form.

In addition, the number of grooves formed on the distal end 110 of the catheter 120 may be one or two or more, and the directions of the grooves may be symmetrical or asymmetrical.

The size of the groove formed on the distal end 110 of the catheter 120 ranges from 0.01 mm to 3 mm, and a black marker is marked up to 80 cm every 1 cm on the catheter 120 from the distal end 110 of the catheter 120 back. may have been

In addition, the catheter 120 and the laser optical fiber 151 are moved simultaneously and the procedure is performed while exiting the venous blood vessel. At this time, a fixing device that couples the optical fiber 151 and the catheter 120 is required. ) can be used to couple the optical fiber 151 and the catheter 120.

The rocker 140 has a threaded groove structure that can be connected to the catheter 120 at the front end 140a, and a connection hole that can be connected to the extension tube 31 of the 3-way hub 130 is formed on the side. It can be, the intermediate portion (140b) has a tightening device 142 that can fix the optical fiber provided from the optical fiber connection device 150.

In addition, on the middle part (140b), the tightening device 142 can be inserted into the built-in silicone stopper 141 that serves to push the optical fiber 151 of the optical fiber connecting device 150 from the rear to the front like a spring, That is, behind the silicone stopper 141, there is a tightening device 142 formed of plastic or other material and having a groove through which the optical fiber 151 can pass in the center, and a locker 140 outside the tightening device 142 It has a sealed structure by the rocker cap 140c which is disposed behind and coupled.

This rocker cap 140a is in the form of a screw and has a structure that engages with the middle part 140b of the front rocker 140. When the rocker cap 140a is rotated, the inner circumferential surface of the rocker cap 140a moves to the middle part 140b. ) has the form of a mechanism that is pushed forward while turning in a male-female coupling with the outer circumferential surface of the ).

When the rocker cap 140a rotates and is pushed forward, the plastic tightening mechanism 142 in the middle moves forward and presses the built-in silicone stopper 141, and the optical fiber connection device 150 among the plastic tightening mechanisms 142 The cross-shaped conical structure formed at the end in the direction toward the inside is pressed by the built-in silicone stopper 141, and the cross-shaped widened structure is pushed into the center of the built-in silicone stopper 141, and the inside of the silicone stopper 141 The optical fiber 151 passing through the tightening mechanism 142 is tightly tightened with an elastic force so that the catheter 120 and the optical fiber 151 are coupled.

By the rocker 140 of this structure, not only the catheter 120 and the optical fiber 151 can be moved simultaneously, but on the other hand, the glass tube that can be attached in front of the optical fiber 151 is attached to the distal end 110 of the catheter 120 It is closely adhered to the inside so that there is no gap so that the sclerosing agent is prevented from escaping to the tip of the distal end 110 of the catheter 120 and serves to escape into the groove under the distal end 130 of the catheter 120.

However, on the other hand, when the glass tube of the optical fiber 151 is located away from the front of the catheter 120, a feature of injecting the sclerotic agent into the blood vessel through the distal end 110 of the catheter 120 can be provided. .

In addition, the rocker 140, which is a device for coupling the catheter 120 and the laser optical fiber 151, is inserted into and coupled to the optical fiber 151, and is located in front of the rocker 140 to engage the catheter 120. (140a) has a passage groove into which the optical fiber 151 enters in the center, and has a screw thread on the inside of the passage groove so that the catheter 120 can be coupled while rotating, and the middle formed at the back of the front end portion 140a. Part 140b is threaded outward to engage with rocker cap 140c.

The size of the passage groove, which is the central groove of the above-described front end portion 140a, may be 0.1 mm to 5 mm, and the size of the outer cylinder may be 1 mm to 10 mm.

The built-in silicone stopper 141 inside the rocker 140 has a groove of 0.01mm to 3mm through which the optical fiber 151 can pass, an outer diameter of 4mm to 10mm can be used, and a thickness of 0.1mm to 20mm can be used. It is desirable to do

On the other hand, since the tightening device 142 located at the rear end of the built-in silicone stopper 141 has a cross-shaped open shape at the rear, it provides a groove through which the optical fiber can pass in the center, and plastic is good as a reel, but non-ferrous or iron , Various materials such as aluminum can be used, and the outer diameter can be 0.5 mm to 30 mm in size to fit inside the middle portion 140 b of the rocker 140, and the length can use 1 mm to 50 mm, and the center It is preferable to use a groove of 0.1 mm to 20 mm.

In addition, the rocker cap 140c corresponding to the rear part of the rocker 140 has a convex protrusion in the center, has a groove into which an optical fiber can enter, and has a screw thread inside the outer cylindrical portion, so that the middle of the rocker 140 It may be combined with the part 140b in a male and female form. When the protrusion of the rocker cap 140c pushes the tightening device 142 from the back, the pointed part of the cone that is widened in the form of a cross at the back of the tightening device 142 is caught in the concave part of the protruding part, and the widened groove is pushed inward to the center. By tightening and holding the optical fiber 151 in the rocker 120, the catheter 120, and the optical fiber 151 can be firmly fixed.

In one embodiment of the present invention, the outer diameter of the rocker cap 140c may be 5 mm to 30 mm, the length may be 10 mm to 50 mm, the length of the protrusion may be 1 mm to 30 mm, and the outer diameter of the protrusion may be 1 mm to 10 mm. can be used,

In this structure, in a state where the optical fiber 151 is not introduced into the catheter 120 area through the built-in silicone stopper 141, the built-in silicone stopper 141 is located at the point where the catheter 120 and the optical fiber 151 come into contact. It has a small groove into which the optical fiber 151 can fit tightly, and serves to block the vasodilator injected through the 3-way hub 130 from flowing out in the direction of the optical fiber 151 at the back of the catheter 120. can

In addition, when the optical fiber 151 is introduced into the catheter 120 area through the built-in silicone stopper 141, the glass tube located in front of the optical fiber 151 enters the inside of the distal end 110 of the catheter 120, and the catheter 120 ) is tightly clamped on the distal end 110 of the catheter 120 so that there is no gap in the distal end 110 of the catheter 120 to prevent the vasodilator from escaping through the distal end 110 of the catheter 120 Groove on the back of the distal end 110 On the other hand, the glass tube located in front of the optical fiber 151 is located far from the front of the front end 110 of the catheter 120 so that the front end 110 of the catheter 120 has an internal groove. When opened, it is to provide a structure capable of injecting a sclerosing agent into a blood vessel through the opened groove.

As described above, preferred embodiments of the present invention have been disclosed in the present specification and drawings, and although specific terms have been used, they are only used in a general sense to easily explain the technical content of the present invention and help understanding of the present invention. However, it is not intended to limit the scope of the present invention. It is obvious to those skilled in the art that other modified examples based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

100: catheter device for lower extremity vein procedure
110: distal end
120: catheter
130: 3-way hub
140: rocker
141: built-in silicone stopper
142: tightening device
150: optical fiber connection device

Claims (3)

In the treatment of varicose veins using a sclerosing agent and a laser optical fiber (151) using a catheter (120) with one lumen
A plurality of grooves are made in the distal end 110 of the catheter 120 in a 360° direction at a predetermined distance from the end so that the sclerosing agent is injected into the blood vessel,
The groove in the 360 ° direction formed on the distal end 110 of the catheter 120,
It is located 0.1 mm to 80 mm away from the front end 110,
The inner diameter of the catheter 120 is formed from 0.3 mm to 5 mm in diameter,
The number of grooves in the 360° direction can be one or two or more, the direction of the grooves is formed symmetrically or asymmetrically, the size of the grooves ranges from 0.01mm to 3mm, and the catheter is used from the distal end to the back. Every 1 cm, a black marker is marked up to 80 cm,
The 3-way hub 130 for injecting the sclerosing agent is connected to the back of the catheter 120, and the rear end of the catheter 120 to which the 3-way hub 130 is connected prevents the sclerosing agent from flowing out backward. A catheter device for lower extremity vein surgery, characterized in that it has a structure in which a built-in silicone stopper 141 with a small groove in the center is provided to prevent it.
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