KR20190098461A - Medical anti-cancer stent unit - Google Patents

Abstract

The present invention relates to a medical anticancer stent unit, comprising: a stent inserted into the coronary organs of the human body; and a drug tube coupled to the stent in the form of surrounding the stent, having a receiving space for receiving a drug, and having micro discharge ports allowing the drug contained in the receiving space to be released to the organ into which the stent is inserted.

Description

Medical anti-cancer stent unit

The present invention relates to a medical anticancer stent unit, and more particularly, to insert a stent capable of replenishing an anticancer agent in a closed portion caused by a tumor. The present invention relates to a medical anticancer stent unit having an improved structure so that the drug may be periodically repeatedly released to the affected area to maximize the anticancer therapeutic effect and the suppression of occlusion due to the tumor.

Digestive tumors, by their nature, cause intestinal obstruction due to an increase in the size of the cancer (tumor). This internal intestinal obstruction is common in esophageal, gastric and bile duct cancers, colon cancers, and lung cancers around the bronchus. Digestive or bronchial endoscopy and stent procedures are mainly used to suppress bowel obstruction.

Stenting with a common stent can temporarily improve intestinal obstruction, but sooner or later increase the size of the cancer, causing the intestinal reclosure of the inserted stent. In order to prevent this situation, a drug coating stent coated with an anticancer agent has been developed.

Drug-eluting stents to prevent intestinal reclosure release the drug, such as an anticancer agent, through the pores, and the coated anticancer agent is consumed in a short time. Short Clinical usefulness is low.

The prior art is Korean Patent No. 10-1795923 "Stent for releasing nanoparticles containing a hydrophilic drug and a hydrophobic drug combined with a biodegradable polymer".

The present invention has been made to solve the above problems, and provides a medical anti-cancer stent unit to maximize the effects of anti-cancer treatment by periodically repeating the release to the affected area through the supplementation of drugs such as anti-cancer drugs. I would like to.

In addition, another object of the present invention is to provide a medical anti-cancer stent unit that can supply the drug to the organ in which the stent is inserted smoothly.

In addition, another object of the present invention to provide a medical anti-cancer stent unit that can suppress the damage to the body tissue during the periodic supply of the drug to the stent.

The problems of the present invention are not limited to those mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

Medical anticancer stent unit according to the present invention for achieving the above object, the stent is inserted into the coronary organs of the human body, such as the gastrointestinal tract and bronchus; And micro-outlets coupled to the stent in a form of enclosing the stent, and having a receiving space for accommodating the drug, and allowing the drug contained in the receiving space to be released to the side of the organ into which the stent is inserted. It is formed; comprises a drug tube.

Preferably, the drug tube includes a connection port connected to the accommodation space and the drug injection device so as to repeatedly inject the drug into the accommodation space.

The connection port may include: an injection unit to which the drug injection device is connected and having a space for temporarily receiving a drug; A position fixing part extending from the injection part and fixed to the inner wall of the stent so as to fix the injection part to the stent side; And a connection part disposed between the position fixing part and the drug tube to provide a movement path for moving the drug introduced into the injection part to the drug tube.

The drug tube may comprise a connection projecting along the longitudinal axis from the edge end. The connecting portion is preferably connected to the connecting portion to provide a movement route of the drug.

The connection port may include an extension part extending from an edge end of the connection port along an axis of the insertion direction in which the stent is inserted.

Preferably, the extension part includes a tapered guide surface to smoothly connect the tip of the drug injection device.

The drug injection device is connected to the extension portion in the process of approaching the extension portion, the cover portion is coupled in a form surrounding the extension portion, the cover portion made of a conduit form; And a microtubule part which is installed to be movable relative to the inside of the cover part and is connected to the extension part, to provide an injection path of the drug.

Medical anticancer stent unit according to the present invention having the configuration as described above, the stent is a coronary organ of the human body such as the gastrointestinal tract or bronchus (管狀 臟器) A drug tube, such as an anticancer agent, is periodically repeated in the affected area by being inserted in the drug tube, the drug tube being coupled to the stent in the form of enclosing the stent, receiving the drug in the inner receiving space and releasing the drug to the tracheal side through the micro-outlets. It can be effected to maximize the effects of anti-cancer treatment.

In addition, the present invention is provided with a connection port in the drug tube, the injection portion of the connection port is connected to the drug injection mechanism to receive the drug, the position fixing portion is extended from the injection portion is fixed to the inner wall of the stent, the connection portion is located It is disposed between the fixed part and the drug tube to move the drug introduced into the injection tube to the drug tube, thereby having the effect of smoothly and periodically repeatedly supplying drugs such as anticancer drugs to the organ into which the stent is inserted.

In addition, the medical anticancer stent unit according to the present invention, the extension portion of the connection port provided in the drug tube is formed extending from the edge end of the connection port, the guide surface of the extension portion is formed in a tapered shape, the tip of the drug injection mechanism is the extension By allowing a smooth connection to the part, the drug can be smoothly released to the organ into which the stent is inserted.

On the other hand, the medical anticancer stent unit according to the present invention, the cover portion of the drug injection device is made of a conduit form and is coupled to the extension portion in the form of surrounding the extension portion, the microtubule portion is installed to be relatively movable inside the cover portion of the extension By supplying the drug to the receiving space of the drug tube and connected to the part, there is an effect of suppressing damage to body tissues during the periodic supply of the drug to the stent.

The effects of the present invention are not limited to those mentioned above, and other effects that are not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a perspective view for explaining a medical anticancer stent unit according to an embodiment of the present invention.
FIG. 2 is a II-II cross-sectional view of FIG. 1. FIG.
Figure 3 is a view for explaining a state in which the drug tube and the drug injection device is employed in one embodiment of the present invention.
4 and 5 are views for explaining the connection port employed in the medical anticancer stent unit according to another embodiment of the present invention.
6 is a view for explaining a connection process between the connection port and the drug injection device employed in the medical anticancer stent unit according to another embodiment of the present invention.
7 is a state diagram for explaining a state in which a connection port and a drug injection device employed in another embodiment of the present invention are connected.

Hereinafter, the configuration and operation of the embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view for explaining a medical anticancer stent unit according to an embodiment of the present invention, Figure 2 is a sectional view II-II of Figure 1, Figure 3 is a drug tube and drug injection employed in one embodiment of the present invention It is a figure for demonstrating the state with which the mechanism was coupled.

As shown in these figures, the medical anticancer stent unit according to an embodiment of the present invention is characterized in that it comprises a stent 100 and the drug tube 200.

The stent 100 is inserted into the internal organs, blood vessels, and the like, such as the gastrointestinal tract, and is preferably made of metal material such as stainless steel, nickel, and titanium alloy, which is harmless to the human body and does not corrode.

The stent 100 is formed in a tubular shape with a space provided therein to prevent the closure of organs or blood vessels, and has a network structure having a predetermined elasticity. The stent 100 has flexibility and may be bent according to the structure of the organ to be inserted. The stent 100 is implemented by woven a plurality of metal wires, it may have a variety of network structure.

The drug tube 200 has a receiving space 201 that is coupled to the stent in the form of surrounding the stent 100 and can receive a drug. The drug tube 200 has micro ejection openings 202 to release the drug to the side of the organ (internal organ or blood vessel) into which the stent is inserted.

The drug tube 200 is preferably made of a polymeric material, a synthetic resin, etc., which have a corrosion resistance and predetermined elasticity and are harmless to the human body. The drug tube 200 may be attached to the outer circumferential surface of the stent 100, and may have an adhesive layer (not shown) on the contact surface in contact with the stent 100 to increase the bonding force.

The micro-discharge port 202 of the drug tube 200 communicates with the receiving space 201 side and the organ side in which the drug is received, and is formed in plurality along the outer circumferential surface of the drug tube. In addition, the drug tube 200 may further comprise a drug inlet, so that the drug can be injected into the receiving space (201).

The drug tube 200 is periodically supplied with drugs such as anticancer drugs through the drug inlet. Thereafter, the drug tube 200 repeatedly discharges the drug to the micro-discharge port 202 for a long time, thereby maximizing the anticancer effect by periodically administering the drug to a tissue such as cancer.

Medical anticancer stent unit according to the present invention having the configuration as described above, the stent 100 is inserted into the organs of the human body, such as the intestinal tract or blood vessels, the drug tube 200 wraps the stent 100 in the form of the stent 100 It is coupled to the (100), by receiving the drug in the inner receiving space 201 and release the drug on the side of the organ through the micro-discharge port 202, it is possible to periodically release the drug such as an anticancer agent in the affected area to anticancer Has the effect of maximizing the effects of treatment.

The drug tube 200 receives a drug from the drug injection device 300 connected to the drug injection port. The drug inlet of the drug tube 200 may be made of a polymer material and may prevent the supplied drug from leaking.

In the present embodiment, the drug injection device 300 may receive the drug therein and supply the drug to the drug tube 200 by an injection operation such as a push.

In the above, the medical anticancer stent unit according to an embodiment of the present invention has been described. Hereinafter, another medical anticancer stent unit according to another embodiment of the present invention will be described with reference to FIGS. 4 and 5.

4 and 5 are views for explaining a connection port employed in the medical anticancer stent unit according to another embodiment of the present invention.

As shown in these figures, this embodiment is similar in configuration to most of the embodiment described above, but has a difference in the structure of the drug tube 200.

That is, the drug tube 200 employed in the present embodiment includes a connection port serving as a drug inlet for drug supply. The connection port includes an injection portion 204, a position fixing portion 205, and a connection portion 206.

The injection portion 204 is connected to the drug injection device and has a space for temporarily receiving the drug. The injection unit 204 may be made of a polymer material or a synthetic resin that is harmless to a human body, and may be formed in a tube shape.

The position fixing part 205 extends from the injection part 204 and is fixed to the inner wall of the stent 100, thereby fixing the injection part 204 to the stent 100 side. The position fixing portion 205 may be made of a metal material such as stainless steel, it is made of a tubular shape.

The connection part 205 is disposed between the position fixing part 205 and the drug tube 200 to provide a movement path for moving the drug introduced into the injection part 204 to the drug tube 200. The connecting portion 205 has a tubular shape and communicates the internal space of the injection portion 204 and the internal space of the drug tube 200 with each other, thereby enabling periodic repetitive supply of drugs.

Meanwhile, the drug tube 200 may further include a connection part 207. The connecting portion 207 is preferably formed in a tubular shape and protrudes along the longitudinal axis from the edge end of the drug tube 200. The connecting portion 205 is connected to the connecting portion 207 to provide a movement route of the drug.

In the present embodiment, a connection port is provided in the drug tube 200, the injection portion of the connection port is connected to the drug injection mechanism to receive the drug, and the position fixing portion 205 extends from the injection portion 204 to stent. It is fixed to the inner wall of the (100), the connecting portion 205 is disposed between the position fixing part 205 and the drug tube 200 to move the drug introduced into the injection portion 204 to the drug tube 200, It has the effect of smoothly and periodically supplying drugs such as anticancer drugs to the organ where the stent is inserted.

In the above, the medical anticancer stent unit according to another embodiment of the present invention has been described. Hereinafter, a medical anticancer stent unit according to another embodiment of the present invention will be described with reference to FIGS. 6 and 7.

6 is a view for explaining a connection process between the connection port and the drug injection device employed in the medical anticancer stent unit according to another embodiment of the present invention, Figure 7 is a connection port employed in another embodiment of the present invention It is a state diagram for demonstrating the state in which the drug injection device is connected.

As shown in these figures, this embodiment is similar in configuration to most of the embodiment described above, but there is a difference in the structure of the drug tube 200.

That is, the drug tube 200 employed in the present embodiment is characterized in that it further comprises a connection port which is a drug inlet. The connection port is formed integrally with the drug tube 200, by connecting the receiving space and the drug injection mechanism 300 of the drug tube 200, it is possible to repeatedly inject the drug into the receiving space.

The connection port may be made of the same material as the drug tube 200 and may be integrally formed with the drug tube 200. The thickness of the portion connected to the drug injection device 300 in the connection port is formed thinner than the thickness of the remaining portion, leading to an effect that can be easily connected to the drug injection device (300).

The connection port preferably includes an extension unit 203. The extension part 203 extends from the edge end of the connection port along the axis of the insertion direction in which the stent 100 is inserted. Here, the connection port serves as the connection unit described above.

The extension part 203 extends the receiving space 201 of the drug tube 200 in the direction in which the stent 100 is inserted. In addition, the extension unit 203 opens or closes the accommodation space 201 when connected to or disconnected from the drug injection mechanism 300. The extension part 203 is preferably made of the same material as the drug tube 200.

On the other hand, the extension unit 203 comprises a guide surface (G). The guide surface G has a tapered shape along the direction in which the extension part 203 is formed, so that the tip of the drug injection device 300 can be smoothly connected.

When the drug injection mechanism 300 is connected to the extension part 203, the guide surface G is caused to slide the tip of the drug injection mechanism 300 to the extension part 203 so that the drug is inserted. Drug delivery to the tube increases the convenience and accuracy of the procedure and results in shortening the procedure time. (See Figure 7)

In this embodiment, the extension part 203 of the connection port provided in the drug tube 200 extends from the edge end of the connection port, and the guide surface G of the extension part 203 has a tapered shape. By allowing the tip of the drug injection device 300 to be smoothly connected to the extension portion 203, the drug can be released to the tissue into which the stent is inserted, and the drug is periodically repeated on the stent. It has the effect of supplying.

The drug injection device 300 includes a cover part 301 and a microtubule part 302. The cover portion 301 of the drug injection device 300 is formed in a conduit form, is connected to the extension portion in the process of approaching the extension portion 203 side, it is coupled in a form surrounding the extension portion.

The cover part 301 is preferably made of a material that is harmless to the human body and has flexibility, and forms a space therein to enable the movement of the microtubule part 302. The cover part 301 and the microtubule part 302 are connected to an operation part (not shown), and can be operated by an operator.

The cover part 301 accommodates the needle-like microtubule part 302 therein, thereby preventing the microtubule part from directly contacting or penetrating the body tissue when approaching the drug tube 200 for drug injection. (See Figure 6)

The microtubule part 302 is provided to provide a drug injection path, and is installed on the inside of the cover part 301 so as to be movable relative to the extension part 203. The microtubule portion 302 has a drug injection passage for drug injection, and allows the drug to be injected into the drug tube 200. The microtubule part 302 is made of a flexible material and may be bent together with the cover part 301 when moved to the drug tube 200 side.

In the present embodiment, the cover portion 301 of the drug injection device is formed in a conduit form and is coupled to the extension portion 203 in a form of enclosing the extension portion, and the microtubule portion 302 is disposed inside the cover portion 301. It is installed to be movable and connected to the extension part 203, and supplies the drug to the receiving space of the drug tube 200, thereby having an effect of suppressing damage to the body tissue during the periodic supply of the drug to the stent.

The embodiments and the accompanying drawings in this specification are merely to clearly show some of the technical matters included in the present invention, and easily inferred by those skilled in the art within the scope of the technical idea included in the specification and the drawings of the present invention. Modifications and specific embodiments that can be made will be apparent that all fall within the scope of the present invention.

100: stent 200: drug tube
201: accommodation space 202: fine discharge port
203: Extension part G: guide surface
204: injection unit 205: position fixing
206: connecting portion 207: connecting portion
300: drug injection mechanism 301: cover part
302: microtubule

Claims (7)

A stent inserted into the coronary organs of the human body; And
It is coupled to the stent in the form of surrounding the stent, the receiving space is formed to accommodate the drug, and the micro-discharge openings to allow the drug contained in the receiving space to be released to the side of the organ in which the stent is inserted Medical anticancer stent unit comprising a; drug tube is formed. The method of claim 1,
The drug tube, medical anticancer stent unit comprising a; connection port connected to the receiving space and the drug injection mechanism so as to repeatedly inject the drug into the receiving space.
The method of claim 2,
The connection port is
An injection part to which the drug injection device is connected and having a space for temporarily receiving a drug;
A position fixing part extending from the injection part and fixed to the inner wall of the stent so as to fix the injection part to the stent side; And
A medical anticancer stent unit, comprising: a connection portion disposed between the position fixing unit and the drug tube to provide a movement path for moving the drug introduced into the injection unit to the drug tube.
The method of claim 3,
The drug tube comprises a connection projecting along a longitudinal axis from an edge end,
The connecting portion is connected to the connecting portion, medical anticancer stent unit, characterized in that to provide a movement path of the drug.
The method of claim 2,
And the connection port includes an extension part extending from an edge end of the connection port along an axis in the insertion direction in which the stent is inserted.
The method of claim 5,
The extension unit, medical anticancer stent unit, characterized in that it comprises a tapered guide surface so that the front end of the drug injection device can be connected smoothly.
The method of claim 5,
The drug injection device,
A cover part connected to the extension part in a process of approaching the extension part, coupled to surround the extension part, and formed in a conduit shape; And
Medical anti-cancer stent unit for providing the injection path of the drug, the micro-tubular part is installed to be movable relative to the inside of the cover portion, connected to the extension portion.

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