KR101135154B1 - Stent delivery devices using micro cadeter - Google Patents

Abstract

The present invention allows the stent to be located close to the lesion via the microcatheter safely, easy to discharge and retrieval for position adjustment of the stent, in particular to place the stent near the vessel where the lesion occurred, A stent delivery device using a microcatheter that is easy to discharge and retrieve for placement and treatment of stents that can easily perform discharge and retrieval for accurate procedure positioning of stents to the body lumen. Specifically, the present invention relates to a device for inserting a stent into a lumen of a blood vessel in which a lesion has occurred. An inner wire is connected to a guide wire moving forward and backward inside an outer tube, and the stent is hooked to a surface of the inner wire. The hanging portion is formed, the stent is caught by the engaging portion of the inner wire It is characterized in that the stent is configured to move away from the inner wire while moving to the lesion site along the inner diameter of the microcatheter, which is in close proximity to the lesion site by the entry of the D-wire; When a stent, such as a stent, is placed in a vessel in which a lesion develops, or a cerebral vessel in which a small diameter is needed, especially in a brain vessel requiring a precise procedure, the stent may be partially discharged and recovered again to adjust the position or direction. There is.

Description

Stent delivery devices using micro catheter

The present invention allows the stent to be located close to the lesion via the microcatheter safely, and relates to the insertion device of the stent that is easy to discharge and retrieve for adjusting the position of the procedure, in particular close to the vessel where the lesion occurred A device for stent placement and easy insertion and retrieval of stent insertion devices for easy placement and placement of stents for accurate placement of stents in the body lumen will be.

In general, blood vessels develop an aneurysm in which a portion of the vessel swells like a balloon due to aging or other diseases.

Such an aneurysm has a risk of bursting the bulged portion by blood pressure.

In particular, the occurrence of such a phenomenon in the cerebrovascular vessels may cause stroke or death due to cerebral hemorrhage.

In the case of the aneurysm of the blood vessel, artificial angioplasty or bypass composition was mainly used in the above-described area through surgical surgery. However, since the lesion site must be incised, large scars and surgical effects are not so high. There was this.

Due to the above problems, a variety of methods have recently been disclosed without surgery, one of which is a stent using a superelastic shape memory alloy.

The stent is inserted into the lesion site in a state of minimally reduced volume by a separate inserting device, and then returns to its original state while the stent blocks the aneurysm of the blood vessel (inflated area), thereby risking bursting due to blood pressure. It was to prevent.

Conventional stent insertion device is a hollow body in front of the operation connector that is built in the front and rear movement of the pressing iron core, the handle is fixed on one side, as in the patent application No. 2001-18324 filed by the applicant The outer outer tube is connected, and the front end of the pressurized iron core is connected to the front and rear moving tube, and the end of the moving tube is connected to the insertion tube forming an insertion end at the end, from the insertion end Insertion tube of a certain distance apart position is made by connecting one side fixed wire.

The inserting device is installed in the outer tube in a state in which the volume is minimized while weaving and pulling the rear end of the stent using a wire while the stent is inserted into the insertion tube.

In this state, since the insertion device is inserted to the lesion site, the handle is pushed to push the pressing core, the moving tube, and the insertion tube so that the insertion tube comes out of the outer tube.

As such, the insertion tube is pushed out of the outer tube and the stent mounted on the insertion tube is pushed outward and expanded in its original form to be installed at the lesion site.

In particular, the inserting device can be installed by resetting the installation position after pulling the stent together with the insertion tube when the stent's rear end is woven on the wire and the stent is pulled together with the insertion tube. It has a characteristic.

However, when the stent is installed in an aneurysm of a blood vessel by the conventional insertion apparatus, the tip portion of the stent pushed away from the insertion apparatus in the blood vessel is expanded by the expansion from the beginning, so that the blood pressure in the blood vessel is increased. There was a problem that the position adjustment is not smooth because the resistance caused by the flow is severely applied.

Accordingly, when the position of the stent needs to be changed, there is an urgent need for an insertion device capable of simply recovering the retracted stent without changing the position of the apparatus as a whole.

Therefore, the present invention has been made in view of the above-described problems of the prior art, and when the stent is treated in a blood vessel in which a lesion develops, or a cerebral blood vessel requiring a precise procedure with a small diameter, especially in the lumen, the deformation of the stent or the damage of the vessel The objective of this invention is to provide a stent delivery device using a microcatheter, which must be able to be safely placed on the lesion via a micro-chather and can be recovered again after partial discharge of the stent. have.

Another object of the present invention is to recover the stent after partial discharge, so that even if the stent is set incorrectly, there is no need to remove the stent and to perform the procedure again.

In order to achieve the above object, the present invention provides a stent insertion device for operating a stent in the lumen of a blood vessel in which a lesion is generated, wherein the inner wire is inserted into an outer tube at an anterior end of a guide wire moving forward and backward. It is coupled to the surface of the inner wire so as to be inserted into the space of the stent is coupled to form a plurality of hooks protruding sharply outward, the stent is caught on the locking portion of the inner wire lesion site by the entry of the guide wire It provides a stent delivery device using a microcatheter characterized in that the stent is configured not to move away from the inner wire at the same time as moving to the lesion along the inner diameter of the microcatheter surgical procedure.

As described above, when the stent is applied to a blood vessel in which the lesion develops, or a cerebral blood vessel that requires a precise and small diameter procedure, the stent is safely removed through the micro-chather without deforming the stent or damaging the blood vessel. It can be located, and even if the stent is partially discharged, it can be recovered again so that the procedure can be performed under control of position or orientation.

In addition, the part can be recovered after discharging the stent, so that even if the position of the stent is set incorrectly, there is no need to remove the stent and to perform the procedure again.

1 is a perspective view of a stent delivery device using a microcatheter according to the present invention,
2 is a cross-sectional view of the inner wire is inserted into the outer tube,
3 is a cross-sectional view of the stent is installed in Figure 2,
4 is a partial perspective view showing a state in which the stent is caught on the inner wire;
5 is a procedure of the stent using a stent delivery device using a microcatheter according to the present invention,
6 is a procedure of correcting the procedure position selection of the stent,
7 is an exemplary procedure in which a stent is performed via a microcatheter using a stent delivery device using a microcatheter according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in Figure 1 to 4, the stent delivery device using the micro-catheter of the present invention relates to the insertion device of the stent to the stent 10 to the lumen 200 of the vessel where the lesion site occurred, the outside The inner wire 40 is connected to the guide wire 30 moving forward and backward inside the tube 20, and the engaging portion 50 is formed on the surface of the inner wire 40 to be caught by the stent 10. The stent 10 caught by the locking portion 50 of the inner wire 40 moves to the lesion portion along the inner diameter of the microcatheter 300 which is close to the lesion portion by the entry of the guide wire 30. At the same time, the insertion device 100 is configured to prevent the stent 10 from being separated from the inner wire 40.

The inner wire 40 is coupled to the front end of the guide wire 30 which is inserted into the outer tube 20 and moves forward and backward.

At this time, the guide wire 30 and the inner wire 40 may be configured to be integrally connected structure, it is preferable to form so that the diameter of the inner wire 40 than the guide wire 30.

Here, the outer tube 20 is maintained in a fixed state and is connected to the holder 21 used in the general catheter.

Then, the guide wire 30 is exposed to the rear end of the outer tube 20 is moved in the front, rear direction inside the outer tube 20 by the withdrawal, insertion operation of the operator.

The inner wire 40 is connected to the end of the guide wire 30 is bonded to the surface so as to be inserted into the space portion 11 of the stent 10 to a plurality of locking portions 50 protruding pointed outwards Configure.

Here, the locking portion 50 is inserted into the space portion 11 of the stent 10 is configured so that the diameter change of the outer tube 20 and the microcatheter 300 due to the stent 10 does not occur. .

This, the connecting portion of the guide wire 30 and the inner wire 40 and the other end of the inner wire 40 is connected to the marking member 60 for preventing the positioning and separation of the stent 10 is pushed out do.

Here, the marking member 60 is configured to move together as the guide wire 30 moves along the inner space of the outer tube 20 so that the stent 10 does not escape to the outside.

In addition, the marking member 60 is configured to easily determine the position of the procedure during projection by a separate procedure check device from the outside during the procedure, for example, can be determined by X-ray irradiation.

On the other hand, the engaging portion 50 is configured to be bonded to one or more lines on the surface of the inner wire (40).

At this time, the locking portion 50 is carboxy cellulose (CMC: Carboxy Methyl Cellulose), hyaluronic acid (HA: Hyaluronic Acid), (chitosan: Chitosan), uronic acid (Pullulan), titanium oxide (: TiO ₂ ) It can be configured by bonding any one to a surface of the inner wire 40 in a liquid state and then solidified.

Here, the locking portion 50 will be preferably made of a polymer material harmless to the human body.

Hereinafter, the operation and operation of the present invention will be described.

As shown in Figures 1 to 5, the stent 10 in the present invention will be described as an example used for blood flow conversion, in particular, to treat the cerebral aneurysm in which the artery partially swells like a hot air balloon. Let's explain.

That is, the stent 10 is inserted into the vascular lumen where the cerebral aneurysm occurs, thereby reducing the amount and speed of blood flow, and the vortex of blood in the swollen portion, thereby reducing the possibility of rupture of the cerebral aneurysm in the short term, and in the long term, the thrombus in the cerebral aneurysm. Will flow to treat cerebral aneurysm.

In addition, the stent 10 is manufactured in a cylindrical shape to form a space portion 11 of the rhombic shape by weaving the super-elastic forming the alloy wire in a zigzag or cut the cylindrical shape in various forms so that the space portion 11 is formed. It can be manufactured in a graft form, in the present invention will be described by taking an example using the stent 10 prepared by weaving the wire in a zigzag.

In order to perform such a stent 10, a very precise procedure is required. Looking at the procedure, the procedure is as follows.

First, when the stent 10 is contracted in the state where the inner wire 40 is positioned inside the stent 10, the catching part 50 is inserted into the space 11.

As a result, the locking portion 50 is inserted into the space portion 11 of the stent 10 so that the diameter change of the outer tube 20 and the microcatheter 300 due to the stent 10 does not occur.

At this time, the stent 10 is positioned between the marking member 60 and the guide wire 40 is pulled to be inserted into the outer tube 20 so that the stent 10 has the diameter of the outer tube contracted. The insertion apparatus 100 is completed by being positioned in the 20.

Thus, in order to perform the stent 10 to the cerebrovascular vessel using the insertion device 100, the assembly is completed, after grasping the lesion location of the onset of cerebral aneurysm, the microcatheter of the tubular form of the vessel in which the cerebral aneurysm occurs Insert into the lumen 200.

Thereafter, the front end of the outer tube 20 is positioned in communication with the microcatheter 300, and then the guide wire 30 is advanced to move the inner wire 40 and the stent 10 to the microcatheter 300. Move inside of.

At this time, the diameters of the microcatheter 300 and the outer tube 20 are similar, and the stent 10 moves to the locking portion 50 of the inner wire 40 while maintaining the locking state.

That is, the stent 10 may be safely moved together with the inner wire 40 by the forward and backward movement of the guide wire 30 in a state where the stent 10 is locked by the locking portion 50 by the microcatheter 300. 10) or the diameter change of the microcatheter 300 does not occur.

In this way, the movement of the completed stent 10 is exposed to pass through the front end of the microcatheter 300 is restored to the initial diameter while being fixed in close contact with the inner wall of the lumen 200 of the vessel.

As shown in FIG. 6, when the procedure is not accurate when the stent 10 is partially ejected because the cerebral aneurysm requires a very precise procedure in the cerebrovascular disease, the guide wire 30 is held backward. Pull position can be reset.

That is, the locking portion 50 is inserted into the space portion 11 of the stent 10 to maintain the locking state, so the stent 10 is reinserted into the microcatheter 300 along the inner wire 40. Through the treatment position can be modified.

Through this process, the stent 10 is drawn out to the outside of the microcatheter 300 through the forward movement of the guide wire 30 to the lumen 200 of the blood vessel in which the accurate cerebral aneurysm has developed.

Then, the surgical stent 100 is removed using a separate hook-type removal device when the symptoms of the lesion improves.

As a result, the stent 10 is caught by the locking holes 50 formed in the inner wire 40 so that the stent 10 can be recovered for adjustment of the procedure position even in a partially pulled out state, thereby increasing the accuracy and convenience of the procedure, and increasing stability. Is to ensure this.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

10: stent 11: space
20: outer tube 21: holder
30: guide wire 40: inner wire
50: locking portion 60: marking member
100: insertion device 200: lumen of the blood vessel
300: microcatheter

Claims (5)

In the stent insertion device for treating the stent 10 in the lumen 200 of the blood vessel in which the lesion site occurred,
The inner wire 40 is coupled to the front end of the guide wire 30 inserted into the outer tube 20 and moved forward and backward,
The connecting end of the guide wire 30 and the inner wire 40 and the other end of the inner wire 40 is connected to the marking member 60 for preventing the positioning and departure of the stent 10 is connected,
Is inserted into the space portion 11 of the stent 10 is configured so that the diameter change of the outer tube 20 and the microcatheter 300 due to the stent 10 does not occur and on the surface of the inner wire 40 Bonding to more than one line to form a plurality of engaging portions 50 of the material to protrude sharply outward,
The stent 10 caught by the catching part 50 moves to the lesion part along the inner diameter of the microcatheter 300 which is close to the lesion part by the entry of the guide wire 30 and at the same time the stent 10 is in the inner part. Stent delivery device using a microcatheter, characterized in that the configuration is not separated from the wire (40).
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