KR102084626B1 - Optical coherent brain catheters for intra-cerebral vascular surgery, and using method thereof - Google Patents

Abstract

The present invention relates to an optical coherent brain catheter for cerebrovascular surgery, comprising: a surface (100) constituting a shaft tube of the catheter; An optical path 200 surrounded by the surface 100 and serving as a passage through which a light source and an optical cable pass; And a wire passage 300 which is a separate passage from the optical passage 200 and is surrounded by the surface 100 and serves as a passage through which the wire passes.
The present invention also relates to a method of using an optical coherent brain catheter for cerebrovascular surgery, more specifically, the surface 100 constituting the shaft tube of the catheter; An optical path 200 surrounded by the surface 100 and serving as a passage through which a light source and an optical cable pass; And a wire passage 300 which is a separate passage from the light passage 200 and is surrounded by the surface 100 and acts as a passage through which the wire passes, including (A) the light passage 200. Inserting the catheter including the wire passage 300 into the blood vessel; And (B) performing optical coherence tomography by passing a light source and an optical cable through the optical path 200 of the catheter inserted in the step (1).
According to the optical coherent brain catheter proposed for the intravascular cerebrovascular surgery proposed by the present invention and a method of using the same, the shaft tube of the catheter is composed of a double hole of an optical path and a wire path, so that the micro wires are different from the optical cable. By allowing them to come out, less catheter can be inserted into the blood vessel, thereby enabling the necessary procedures.
In addition, according to the present invention, the surface of the catheter may be configured to include a twisted portion, thereby increasing accessibility.
In addition, according to the present invention, by shortening the distal length of the catheter, it can be appropriately applied to cerebrovascular.

Description

OPTICAL COHERENT BRAIN CATHETERS FOR INTRA-CEREBRAL VASCULAR SURGERY, AND USING METHOD THEREOF

The present invention relates to an optical coherent catheter for endovascular surgery and a method of using the same, and more particularly, to an optical coherent brain catheter for cerebrovascular surgery and a method of using the same.

Catheter is one of the common names of tubular instruments and means a tubular device for insertion into an organ with body cavity or lumen. The catheter is used for the discharge of debris in the body cavity or various organs, the aspiration of the cleaning perfusion solution, the measurement of cardiovascular behavior or central venous pressure, the infusion of drugs or contrast agents, etc. It can be configured in the form.

Conventional techniques for vascular imaging catheter used in the diagnosis of cardiovascular disease include intravascular ultrasound, intravascular near-infrared imaging technology, and intravascular optical coherence tomography, which have been commercially used.

Intravascular optical coherence tomography, which is used for intravascular optical coherence tomography, is a catheter type device that inserts light into a blood vessel, sends light to the blood vessel, and analyzes the returning light to acquire a tomographic image of the blood vessel. Early vascular optical coherence tomography was not widely used because its speed was not as fast as the level of intravascular ultrasound, but recently developed second generation vascular optical coherence tomography is more than 10 times faster, and within a few seconds, You can shoot. Because light is used, images are obtained by flushing a solution of saline and angiography to minimize the effects of blood.

The main cause of ischemic cerebral infarction is due to atherosclerotic cerebrovascular stenosis and its associated thrombosis or thromboembolism due to cardiac and aortic disease. In cerebrovascular stenosis, the cause, progression, and infarction form vary according to the components of atherosclerotic plaque, so it is very important for the treatment strategy of patients.

In the cardiac medicine area, cross-sectional images before and after endovascular surgery are performed using a catheter (C7-XR dragonfly imaging catheter), an optical catheter, which is an imaging device capable of viewing cross-sectional images of coronary stenosis. He is treating stenosis in a more accurate and safe way. OCT catheter is flexible but poorly accessible.

1 is a diagram illustrating a state in which an OCT catheter is inserted into a coronary artery. As shown in FIG. 1, the coronary artery is relatively inflexible after the induction catheter is inserted and thus can be accessed as a flexible OCT catheter, but there are two problems in applying the conventional OCT catheter to the cerebrovascular vessel. have. First, it is poorly accessible to cerebrovascular vessels that have to go through three to four severe curves. 2 is a diagram showing the severe curvature of the cerebrovascular. As shown in FIG. 2, the cerebrovascular has severe bending.

Second, because the catheter protrudes about 2cm in front of the sensor of the OCT catheter, it is difficult to apply the coronary catheter to the cerebrovascular vessel. FIG. 3 is a diagram illustrating an OCT catheter for cardiac medicine, and FIG. 4 is a diagram illustrating an OCT catheter for cardiac medicine. As shown in Figures 3 and 4, the catheter comes out in front of the OCT lens, there is an inconvenience that the catheter must be inserted into the blood vessel as a whole for the procedure to the required site.

As a related art related to an optical coherent catheter, there is a Korean Patent Publication No. 10-1397272 (name of the invention: a comprehensive imaging catheter system and an image processing system).

The present invention has been proposed to solve the above problems of the conventionally proposed methods, so that the shaft tube of the catheter is composed of a double hole of the light passage and the wire passage, so that the micro wire can come out in a different direction from the optical cable. Accordingly, an object of the present invention is to provide an optical coherent brain catheter for cerebrovascular surgery and a method of using the catheter, which enables a necessary procedure even if the catheter is less inserted into a blood vessel.

Another object of the present invention is to provide an optical coherent brain catheter for cerebrovascular surgery and a method of using the catheter, the surface of which is configured to include a twisted portion, thereby increasing accessibility. .

In addition, another object of the present invention is to provide an optical coherent brain catheter for cerebrovascular surgery and a method of using the same, which can be appropriately applied to cerebrovascular vessels by shortening the distal length of the catheter. .

According to a feature of the present invention for achieving the above object, an optical coherence brain catheter for cerebrovascular surgery,

A surface 100 constituting the shaft tube of the catheter;

An optical path 200 surrounded by the surface 100 and serving as a passage through which a light source and an optical cable pass; And

It is characterized in that it comprises a wire passage 300 as a passage separate from the optical passage 200, the wire passage 300 is surrounded by the surface 100 and acts as a passage through which the wire passes.

Preferably, the surface 100,

It may include a twisted portion 120 to secure accessibility.

More preferably, the twisted portion 120,

Metal yarn made of stainless steel may be twisted.

Preferably, the surface 100,

An outer shell 110 that forms the outer surface of the catheter conduit; And

It may include an endothelial 130 that forms the inner side of the catheter conduit.

More preferably, the outer shell 110 and the inner shell 130,

It may be made of polyethylene, polypropylene which is a thermoplastic resin harmless to the human body.

Preferably,

The optical path 200 may have a wider cross-sectional area than the wire path 300.

Preferably,

The optical path 200 may further include a separator 400 which serves to distinguish the wire path 300 from each other.

More preferably, the separator 400,

The endothelial integrated membrane 410 may be formed by combining with the endothelial 130 of the surface 100.

Preferably, the separator 400,

It may be made of polyethylene, polypropylene which is a thermoplastic resin harmless to the human body.

Preferably,

The end of the wire passage 300 may further include a washing unit for catheter cleaning.

In addition, a method of using an optical coherent brain catheter for cerebrovascular surgery according to another aspect of the present invention for achieving the above object,

A surface 100 constituting the shaft tube of the catheter; An optical path 200 surrounded by the surface 100 and serving as a passage through which a light source and an optical cable pass; And a wire passage 300 which is a separate passage from the optical passage 200 and is surrounded by the surface 100 and serves as a passage through which the wire passes.

(1) a catheter including an optical path 200 and a wire path 300 is inserted into a blood vessel; And

(2) performing optical coherence tomography by passing a light source and an optical cable through the optical path 200 of the catheter inserted in the step (1).

Preferably, the surface 100,

It may include a twisted portion 120 to secure accessibility.

More preferably, the twisted portion 120,

Metal yarn made of stainless steel may be twisted.

Preferably, the surface 100,

An outer shell 110 that forms the outer surface of the catheter conduit; And

It may include an endothelial 130 that forms the inner side of the catheter conduit.

More preferably, the outer shell 110 and the inner shell 130,

It may be made of polyethylene, polypropylene which is a thermoplastic resin harmless to the human body.

Preferably,

The optical path 200 may have a wider cross-sectional area than the wire path 300.

Preferably,

The optical path 200 may further include a separator 400 which serves to distinguish the wire path 300 from each other.

More preferably, the separator 400,

The endothelial integrated membrane 410 may be formed by combining with the endothelial 130 of the surface 100.

Preferably, the separator 400,

It may be made of polyethylene, polypropylene which is a thermoplastic resin harmless to the human body.

Preferably,

The end of the wire passage 300 may further include a washing unit for catheter cleaning.

According to the optical coherent brain catheter proposed for the intravascular cerebrovascular surgery proposed by the present invention and a method of using the same, the shaft tube of the catheter is composed of a double hole of an optical path and a wire path, so that the micro wires are different from the optical cable. By allowing them to come out, less catheter can be inserted into the blood vessel, thereby enabling the necessary procedures.

In addition, according to the present invention, the surface of the catheter may be configured to include a twisted portion, thereby increasing accessibility.

In addition, according to the present invention, by shortening the distal length of the catheter, it can be appropriately applied to the cerebrovascular.

1 is a view showing the insertion of the OCT catheter in the coronary arteries.
2 is a diagram showing the severe bending of cerebrovascular.
3 shows an OCT catheter for cardiology.
4 is a diagram illustrating an OCT catheter for cardiac medicine.
5 is a block diagram of an optical coherent brain catheter for intravascular cerebrovascular surgery according to one embodiment of the present invention.
Figure 6 is a view showing the surface of the catheter portion in the optical coherence brain catheter for intravascular cerebrovascular surgery according to an embodiment of the present invention.
Figure 7 is a cross-sectional view of the catheter according to the position in the optical coherence brain catheter for intravascular cerebrovascular surgery according to another embodiment of the present invention.
8 is a view illustrating an endothelial integrated membrane in an optical coherent brain catheter for cerebrovascular surgery according to another embodiment of the present invention.
9 is a view showing a state using an optical coherence brain catheter for intravascular cerebrovascular surgery according to an embodiment of the present invention.
10 is a flow chart of a method of using an optical coherent brain catheter for cerebrovascular surgery.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. However, in describing the preferred embodiment of the present invention in detail, if it is determined that the detailed description of the related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and functions.

In addition, throughout the specification, when a part is 'connected' to another part, it is not only 'directly connected' but also 'indirectly connected' with another element in between. Include. In addition, the term 'comprising' a certain component means that the component may further include other components, except for the case where there is no description to the contrary.

5 is a block diagram of an optical coherent brain catheter for intravascular cerebrovascular surgery according to an embodiment of the present invention. As shown in FIG. 5, the optical coherence brain catheter for cerebrovascular surgery according to an embodiment of the present invention includes a light source and an optical cable surrounded by a surface 100 and a surface 100 constituting a shaft tube of the catheter. It may be configured to include a light path 200 that acts as a passage, a separate path from the light path 200, and a wire path 300 that acts as a path through which the wire is surrounded by the surface 100.

FIG. 6 is a view illustrating the surface 100 of a shaft tube (conduit, shaft tube) in an optical coherence brain catheter for cerebral vascular surgery according to an embodiment of the present invention. Figure 6 (a) is a side view of the catheter 10, and (b) is a view showing a cross section of the catheter. As shown in Figure 6, in the optical coherence brain catheter for cerebrovascular surgery according to an embodiment of the present invention, the surface 100, the outer shell of the catheter conduit 110, twisted to secure accessibility Portion 120 and endothelial 130 inside the catheter conduit.

The twisted portion 120 may be made of a stainless steel material according to the embodiment. The conventional OTC catheter for cardiovascular treatment has a problem in that accessibility is poor because there is no braided portion on the surface. When the optically coherent brain catheter 10 for cerebrovascular surgery according to an embodiment of the present invention includes a twisted portion 120, when the catheter is inserted into a highly curved cerebrovascular vessel, the force is better received. To increase the accessibility of the catheter.

The outer shell 110 and the inner shell 130 of the catheter surface 100 may be made of polyethylene, polypropylene which is a thermoplastic resin harmless to the human body. However, the present invention is not limited to the above materials.

7 is a view showing a cross section of the catheter according to the position in the optical coherence brain catheter for cerebrovascular surgery according to another embodiment of the present invention. As shown in FIG. 7, the optically coherent brain catheter 10 for cerebrovascular surgery according to an embodiment of the present invention is a separation membrane that serves to distinguish between the optical path 200 and the wire path 300. 400 may be configured to further include. In addition, according to the embodiment, the optical path 200 may have a wider cross-sectional area than the wire path 300.

8 is a view showing the endothelial integrated membrane in the optical coherence brain catheter for cerebrovascular surgery according to another embodiment of the present invention. As shown in FIG. 8, the separator 400 may be combined with the endothelial 130 of the catheter conduit surface 100 to form an endothelial integral membrane 410. In addition, the material of the separator 400 may be made of polyethylene and polypropylene, which are harmless to the human body, but are not limited thereto.

By constructing the catheter with a double hole, the microwire and the light source can be directed in different directions. In this case, the microwires can be made to come out to the far side, rather than short to the side at the end of the catheter. When the micro wires come out in different directions, the light source can be inserted into a position separate from the micro wires, and the light source does not need to be inserted until the induction wire is inserted. Accordingly, the entire catheter is not integrally inserted into the blood vessel, and the light source is inserted only at a desired part separately from the degree of catheter insertion as needed, thereby enabling more accessible and convenient procedures.

9 is a view showing a state using an optical coherence brain catheter for cerebrovascular surgery. Figure 9 (a) is a diagram illustrating a state of operation using a conventional OCT catheter. As shown in FIG. 9 (a), the conventional catheter includes a 20 mm protruding portion in front of the OCT lens (light source), so that the lens passes through the lesion site in the blood vessel to irradiate the lesion site. It shall be inserted further by 20 mm.

Figure 9 (b) is a diagram illustrating the operation using an optical coherence brain catheter for intravascular cerebrovascular surgery according to an embodiment of the present invention. As shown in (b) of FIG. 9, the micro wires and the light source (OCT lens) may be emitted in different directions, so that the light source and the catheter tip may be in the same plane. Accordingly, unlike the conventional catheter, it is necessary to insert 20 mm less than the conventional catheter for the procedure and lesion site required, thereby improving accessibility.

In addition, in the conventional OCT catheter for cardiovascular treatment, it is common that the distal portion is 50 mm long. For cerebrovascular procedures that are severely curved and deeper than cardiovascular vessels, the distal portion does not need to be as long as 50 mm, and it is appropriate that the length is as short as 20 mm to 30 mm. Accordingly, the optical coherence brain catheter 10 for intravascular cerebrovascular surgery according to an embodiment of the present invention is to shorten the distal length of the catheter, to be appropriately applied to the cerebrovascular.

The optical coherent brain catheter 10 for cerebrovascular surgery according to an embodiment of the present invention may further include a washing unit for catheter cleaning at the end of the wire passage 300. If the catheter is made of a single hole, all of the light source, the optical cable portion should be washed to clean the catheter, but the catheter is the same as the optical coherent brain catheter 10 for cerebrovascular surgery according to an embodiment of the present invention. In the case of the double hole, the washing part is included only in the portion of the wire passage 300 through which the micro wires (induction wires) pass, so that the catheter can be washed more conveniently.

The washing unit described above may clean the catheter by saline flushing into the catheter.

FIG. 10 is a flowchart illustrating a method of using an optical coherent brain catheter for cerebrovascular surgery according to an embodiment of the present invention. As shown in FIG. 10, the method of using an optical coherent brain catheter for cerebrovascular surgery according to an embodiment of the present invention includes a light source surrounded by a surface 100 and a surface 100 constituting a catheter conduit. A method of using a catheter comprising an optical path 200 acting as a passage through which an optical cable passes, and a wire path 300 acting as a passage through which the wire is surrounded by the surface 100 as a passage separate from the optical path. The catheter including the passage 200 and the wire passage 300 is inserted into the blood vessel (S100), and the optical coherence tomography by passing the light source and the optical cable through the optical passage 200 of the catheter inserted in step S100 It includes the step of performing.

Details related to the respective steps have been described above in connection with the optical coherent brain catheter 10 for the cerebrovascular surgery according to an embodiment of the present invention, detailed description thereof will be omitted.

As described above, according to the optical coherence brain catheter for the intravascular cerebrovascular surgery proposed by the present invention and a method of using the same, the microtube is formed so that the shaft tube of the catheter is composed of a double hole of an optical path and a wire path. By allowing it to come out in a different direction from the optical cable, less catheter can be inserted into the blood vessel to allow the necessary procedure. In addition, according to the present invention, the surface of the catheter may be configured to include a twisted portion, thereby increasing accessibility. In addition, according to the present invention, by shortening the distal length of the catheter, it can be appropriately applied to cerebrovascular.

The present invention described above may be variously modified or applied by those skilled in the art, and the scope of the technical idea according to the present invention should be defined by the following claims.

10: optical coherence brain catheter for cerebrovascular surgery according to an embodiment of the present invention
100: surface
110: sheath
120: twisted portion
130: endothelial
200: light path
300: wire passage
400: separator
410: endothelial membrane
S100: catheter including optical path and wire path is inserted into the blood vessel
S200: performing optical coherence tomography by passing the optical cable through the optical path of the catheter inserted in step S100

Claims (20)

As an optically coherent brain catheter 10 for cerebrovascular surgery,
A surface 100 constituting the shaft tube of the catheter;
Surrounded by the surface 100 to act as a passageway through which the light source and the optical cable pass
Optical path 200;
As a separate passage from the optical path 200, the wire is surrounded by the surface 100
A wire passage 300 acting as a passage passage; And
It includes a separator 400 that serves to distinguish between the optical path 200 and the wire path 300,
The surface 100 includes a twisted portion 120 formed by twisting metal yarns made of stainless steel at regular intervals,
The optical path 200 has a wider cross-sectional area than the wire path 300,
Light source and the optical cable in the optical path 200 and the wire in the wire path 300, characterized in that coming from the catheter 10 in a different direction, optical coherence brain catheter for cerebrovascular surgery.
delete delete The method of claim 1, wherein the surface 100,
An outer shell 110 that forms the outer surface of the catheter conduit; And
An optically coherent brain catheter for cerebrovascular surgery, characterized in that it comprises an endothelial (130) forming an inner side of the catheter conduit.
The method according to claim 4, wherein the outer shell 110 and the inner shell 130,
An optical coherent brain catheter for cerebrovascular surgery, characterized in that the thermoplastic resin is made of polyethylene, polypropylene, harmless to the human body.
delete delete The method of claim 4, wherein the separator 400,
Combined with the endothelial 130 of the surface 100 to form an endothelial integrated membrane 410, optical coherence brain catheter for cerebrovascular surgery.
The method of claim 8, wherein the separation membrane 400,
An optical coherent brain catheter for cerebrovascular surgery, characterized in that the thermoplastic resin is made of polyethylene, polypropylene, harmless to the human body.
The method of claim 1,
An optical coherent brain catheter for cerebrovascular surgery, characterized in that it further comprises a washing unit for catheter cleaning at the end of the wire passage (300).
delete delete delete delete delete delete delete delete delete delete

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