KR100353685B1 - Catheter - Google Patents

Abstract

The present invention enables to easily inject hematoma releasing agent while maintaining a constant brain pressure while allowing the body fluids such as hematoma, cerebrospinal fluid and brain tumors abnormally formed in the cranial cavity to be smoothly discharged out of the cranial cavity without side effects caused by infection. In addition, it relates to intracranial fluid drainage catheter to be inserted more easily and easily into the correct surgical site in the intracranial cavity, which is a long tube 110 made of a non-toxic transparent material having flexibility and ; A two-way connector 160 having two flow paths inserted through the connector 120 at the rear of the pipe part 110; Second and third coupling members 140 and 150 selectively coupled to branched flow paths of the two-way valve 160; An injection member 170 into which the needle part 174 in front of the third coupling member 150 is inserted through the insertion hole 153 exposed to the rear of the third coupling member 150; It characterized in that it comprises a fourth coupling member 180 is provided with a sealing member 181 to be inserted into the receiving groove 171 formed from one side of the injection member 170.

Description

Catheter {Catheter}

The present invention relates to a catheter, more specifically, to maintain a constant brain pressure while allowing the body fluids, such as hematoma, cerebrospinal fluid and brain tumors abnormally formed in the cranial cavity to be smoothly discharged out of the cranial cavity without side effects caused by infection. It is related to intracranial fluid drainage catheter to facilitate the injection of hematoma lysis in one state, and also to more easily and easily insert the catheter into the correct procedure in the intracranial cavity.

In general, intracranial hematoma treatment is performed by direct surgical removal of hematoma with neurologic surgery, followed by craniotomy. However, in recent years, hematoma has been directly or cerebral device used for developing brain computed tomography or magnetic resonance imaging. Surgery to remove is becoming commonplace.

This operation can be performed in a short time under local anesthesia, so it is well suited for patients with difficult general anesthesia.

For example, in intraparenchymal hemorrhage, the intracranial hematoma was measured by brain tomography, and a catheter was inserted into the hematoma directly after cranial puncture, or by using a stereotactic instrument, and the hematoma was released out of the cranial cavity. .

In this case, the discharge pattern is different depending on the degree of maturation (solid or liquid) of the hematoma, and it is necessary to discharge it gradually in small amounts rather than removing the whole hematoma at once. Catheter discharges the cranial cavity out of the cranial cavity.

In particular, in the case of a solid hematoma, a hematoma soluble agent is injected through the catheter to dissolve the hematoma so that the discharge is easy.

Conventional catheter used in such surgery and treatment is as shown in Figure 1 of the accompanying drawings.

That is, the catheter (1) composed of a flexible non-toxic transparent material is a long tube (2); The head part 3 attached to the front-end | tip part of this pipe part 2, and the several hole 4 formed in the near end of the said head part 3 are included.

On the catheter 1, a position indication scale 6 is displayed at a predetermined position in the longitudinal direction from the head portion 3 of the tip portion.

The catheter 1 is made of pure silicon rubber and forms one discharge pipe 2a which is a single fluid passage.

The conventional catheter having such a configuration inserts the tube part 2 to a predetermined depth in the cranial cavity so that the head part 3 is positioned at the center of body fluid such as intracranial hematoma or tumor during surgery, and the rest of the tube part is already After the created cranial cavity (not shown) using a scalp trocar (Procar) is passed about 3 to 4cm below the scalp and then fixed.

The external end of the cranial cavity of the tubular part 2 is connected to a pressure control mechanism (not shown), which in turn is connected to a drainage collection bag (not shown) so that the fluids in the intracranial cavity are completely isolated from the outside and finally discharged from the body. It is configured to collect in a liquid collection bag.

At this time, the head portion 3 and the radiation line 5 of the radiographic material is to be able to clearly know the position of the catheter (1) inserted into the cranial cavity even during simple skull X-ray imaging.

As described above, the conventional catheter 1 is in the form of one discharge tube 2a, which is a single fluid passage, so that when a hemolytic agent, antibiotic or physiological saline needs to be injected, a significant amount of the catheter is already filled. Since hematoma and other fluids must be introduced back into the brain, and additional physiological saline should be injected as much as the volume inside the catheter. This causes not only an increase in brain pressure but also a risk of infection due to repeated injections and a cumbersome operation. have.

Therefore, in order to solve the above problems, it is possible to easily inject hematoma dissolving agents while maintaining the brain pressure constant, and the new type of radically eliminated the risk of infection by not returning the fluid such as hematoma in the catheter into the intracranial cavity. Intracranial fluid drainage catheter is known from patent 178113.

The structure of the body fluid discharge catheter according to the prior art is as shown in Figure 2 of the accompanying drawings.

That is, the catheter 10 comprises a head portion 13 which constitutes an elongated tube portion 12 and is attached to the tip of the tube portion 12, similar to the above-mentioned conventional catheter 1; A plurality of holes 14 formed in the pipe portion 12 near the head portion 13; And a position indication scale 15.

Unlike the conventional catheter, the catheter 10 according to the prior art has a large cross-sectional discharge pipe 12a for intracranial fluid discharge in the inside of the pipe portion 12 and is adjacent to the outside of the cranial cavity. From the intracranial cavity, the injection tube 12b having a small cross-sectional area for the injection of hematoma dissolving agent or the like is formed, and at the apex of the head portion 13, another through hole communicating with the injection tube 12b of the tube portion 12 is formed. 13a is formed.

Then, another end injection tube 16 having the same inner diameter as that of the injection tube 12b is inserted to be separated from the tube portion 12 at an end opposite to the head portion 13 of the injection tube 12b.

In order to fix the connection of the separate injection pipe 16 and the injection pipe 12b of the pipe part 12, one connection member 17 which seals the connection part as a whole is provided.

In addition, the connection portion of the separate injection tube 16 and the injection tube 12b of the tube portion, the use of the catheter 10 to position the head portion 13 in the cranial cavity and extend the tube portion 12 to the outside of the cranial cavity At this time, it is provided at a sufficient distance from the head portion 13 to be located outside the cranial cavity.

The separate injection pipe 16 is provided to be separate from the pipe portion 12 from the connection portion and is configured to have a free end (not shown) by cutting it in use, but in manufacturing it is connected for reasons such as convenience during storage and surgery The member 17 is configured so that the separate injection pipe 16 is attached to the pipe portion 12.

Another connecting member 18 seals and connects the pipe part 12 and another pipe part 19 in close contact therewith, and the end of the separate injection pipe 16 is received inside the connecting member 18. Lose.

However, the fluid discharge catheter according to the prior art is configured as described above, each connecting member 17, 18 for interconnecting the tube portion 12 and the separate injection tube 16 and another tube portion 19. ) And the separate injection tube 16 is coupled to the outer circumferential surface of the tube portion 12, 19 is formed so as to project outward at least a predetermined interval than the outer peripheral diameter of the tube portion 12 (19). Will have

Therefore, the prior art has a difficulty in inserting a catheter into a hematoma using a cerebral positioning device (not shown) by measuring the exact position of intracranial hematoma by brain tomography in case of intraparenchymal hemorrhage. Cause.

Because, the stereotactic frame (Stereotactic frame) is a kind of guide function to determine the exact position of the intracranial hematoma, the catheter according to the prior art is the connection member 17, 18 and the separate injection pipe 16 The portion is larger than the diameter of the tube portion to eventually prevent the play of the through-hole (usually inserted catheter) formed in the cerebral stereotactic mechanism by the connecting member (17) and the separate injection tube (16) Since the diameter is almost the same diameter as the diameter of the tube) is relatively narrow, it is difficult to use the stereotactic instrument during the procedure, there is a disadvantage that requires a high level of skill in order to position the catheter at the exact point of the hematoma.

In addition, when the head subcutaneous penetrating through the scalp using a trocar by the connecting members 17 and 18 and the separate injection pipe 16 having a structure protruding outward with respect to the outer peripheral surface of the pipe part. Difficulties will follow, and in particular, having a double pipe structure, the structure is generally complex, which causes a high defect rate in manufacturing and difficulty in cleaning / sterilization, thereby increasing the manufacturing cost.

Accordingly, the present invention has been made to solve the above problems, the present invention allows the brain pressure to be smoothly discharged out of the cranial cavity body fluids such as hematoma, cerebrospinal fluid and brain tumors abnormally formed in the cranial cavity without side effects caused by infection Intracranial fluid discharge allows for easy infusion of hematoma lysis, etc. in a constant state, and for easier and easier insertion into the correct procedure in the intracranial cavity using a brain stereotactic device. The purpose is to provide a catheter.

Catheter according to the present invention for achieving the above object is a long pipe portion made of a non-toxic transparent material having flexibility; A two-way connector having two flow paths inserted through the connector at the rear of the tube portion; Second and third coupling members selectively coupled to branched flow paths of the two-way connectors; An injection member into which a needle portion in front of the third coupling member is inserted through a rear insertion hole of the third coupling member; It characterized in that it comprises a fourth coupling member is provided with a sealing member inserted into the receiving groove formed from one side of the injection member.

1-cross-sectional view of the coupling of the catheter according to the conventional invention,

Figure 2 is a cross-sectional view showing another embodiment of the catheter according to the conventional invention,

3-exploded cross-sectional view showing a state in which each component of the catheter is disassembled,

Figure 4 is a cross-sectional view showing a combined state of each component of the catheter according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: catheter 2: tube

2a: discharge pipe 3: head part

4: hole 5: radiation line

10: catheter 12: tube

12a: discharge pipe 12b: injection pipe

13: Head 13a: Through Hole

14: Hole 15: Position mark scale

16: separate injection tube 17: connecting member

18: connecting member 19: pipe

19a: discharge pipe 110: pipe

111: discharge pipe 112: head portion

113: hole 114: position display scale

115: radiation line 120: connector

121: through-hole 122: close contact

123: rim projection 124: melted portion

130: first coupling member 132: female thread portion

140: second coupling member 141: through hole

142: female thread portion 150: third coupling member

152: rim projection 153: insertion hole

155: check valve 160: two-way connector

161: first euro 162: second euro

163: circumferential protrusion 165: rim protrusion

170: injection member 171: receiving groove

172: edge protrusion 173: female thread

174: needle portion 175: injection passage

180: fourth coupling member 181: sealing member

182: female thread 183: through hole

Hereinafter, the catheter according to the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is an exploded cross-sectional view showing a disassembled state of each component of the catheter according to the present invention, Figure 4 is a cross-sectional view showing a combined state of each component of the catheter according to the present invention.

As shown in the figure, the catheter according to the present invention is an elongated tube portion 110 composed of a non-toxic transparent material having a total flexibility; A two-way connector 160 having two flow paths inserted through the connector 120 at the rear of the pipe part 110; And second and third coupling members 140 and 150 selectively coupled to branched flow paths of the two-way connector 160, respectively. An injection member 170 into which the needle part 174 in front of the third coupling member 150 is inserted through the insertion hole 153 exposed to the rear of the third coupling member 150; And a fourth coupling member 180 provided with a sealing member 181 which is inserted into and coupled to the receiving groove 171 formed from one side of the injection member 170.

The connector 120 has a fusion portion 124 is formed along the outer circumference of the one side is tightly coupled to the rear of the tube portion 110 through the fusion portion 124.

In addition, the rim protrusion 123 is integrally formed on the rear edge thereof so that the rim protrusion 123 is detachably screwed with the first coupling member 130 which is rotatably coupled to one side of the two-way connector 160. It is fastened.

The two-way connector 160 is formed in a T-shape as a whole, the first, second flow paths (161, 162) is selectively formed therein, each of these flow paths are first, second on the outer periphery Coupling members 130 and 140 are selectively coupled.

The rear portion of the first flow path 161 is coupled to the third coupling member 150 in which the check valve 155 is built.

The check valve 155 is to prevent the reverse flow, the process of inserting the injection member 170 through the incision groove (not shown) formed in the center, or even after removing the body fluid or the chemical liquid external It will not leak out.

The third coupling member 150 has a border protrusion 152 formed on the outer circumference of the rear thereof so that the injection member 170 is coupled through the border protrusion 152, and the injection member 170 has one side thereof. The needle portion 174 is formed at the distal end of the injection passage 175 is formed, and the outer peripheral edge of the other side is formed with a border protrusion 172 through the edge projection 172 to the fourth coupling member 180 ) Are combined.

The catheter according to the present invention configured as described above, the two-way connector 160 to allow the injection and discharge is selectively made through each path via the connector 120 in the rear of the pipe 110 Through this two-way connector 160, the hematoma, such as hematoma, cerebrospinal fluid and brain tumors abnormally formed in the cranial cavity can be smoothly discharged out of the cranial cavity without side effects caused by infection, and hemolytic dissolution is maintained in a constant brain pressure. Easily inject the back.

That is, the method of applying the catheter according to the present invention will be described in detail.

First, only the discharge pipe 111, which is a single fluid passage, is formed, and the pipe part 110 having no change in its outer circumference is accurately inserted into the lesion site in the cranial cavity using a brain stereotactic mechanism as in the conventional catheter use.

At this time, since the present invention has no change in the outer circumferential diameter of the pipe part 110, it becomes possible to use a brain stereotactic mechanism.

When the tube 110 is inserted into the cranial cavity through the above process, the scalp puncture is connected to the open space at the rear of the tube, and the scalp puncture is passed through the subcutaneous layer of the scalp, about 30 mm from the first cranial puncture point. Take the scalp perforation away from the space.

At this time, the catheter's initial insertion site (the puncture point of the scalp) is thoroughly covered with a sterile gauze or the like to overcome the fear of infection.

When the suture of the puncture point is completed, the scalp puncture needle exposed in the vicinity of the point is removed from the pipe part 110, and at the same time, the connector 120 is formed on one side through the rear of the open pipe part 110 The second coupling member 140 is coupled to the two euros 162 in order to sequentially couple the two-way connector 160 which is hermetically coupled to each other, and if each of the above members is combined, a separate anchor (not shown) is used. The catheter is stably fixed to the operator's head.

In addition, the rear of the two-way connector 160 is coupled to the injection member 170 coupled to the fourth coupling member 180, the coupling process of the needle portion 174 exposed to one side of the injection member 170; ) Is inserted into the penetrating groove (not shown) of the shank valve 155 accommodated in the rear of the two-way connector 160 by the third coupling member 150 and inserted into the needle portion ( The tip of 174 is inserted up to the portion close to the head 112 of the tube 110 as shown in FIG. 4.

In order to prevent the increase in the brain pressure during the coupling of the injection member 170, the first coupling member 140 is first removed, and the pressure control mechanism (not shown) and the discharge liquid collecting bag are connected to the needle portion 174. ), Let the excess fluid flow into the collection bag.

When the drug is injected into the cranial cavity, the sealing member 181 provided inside the fourth coupling member 180 without separating the fourth coupling member 180 from the injection member 170 using an injection needle. ) To inject the drug with a needle (not shown) or to separate the fourth coupling member 180 detachably coupled to the rear of the injection member 170 and then expose the exposed injection member 170. Chemical solution may be injected through the receiving groove 171 of the).

This makes it possible to inject the drug while all the fluid passages are sealed from the outside, so that the body fluid is not discharged during the injection process.

At this time, during the time that the drug solution is injected and acts, the passage to the pressure control mechanism connected to the second coupling member 140 temporarily closes the flow path.

On the other hand, the present invention is the body fluid or even if the process of injecting the drug through the injection member 170 or by using the shank valve 155 mounted to the rear of the two-way connector 160 or removed after use of the injection member 170 The chemical will not leak out.

In addition, the second flow passage 162 branched from the first flow passage 161 of the two-way connector 160 is a pressure control mechanism (not shown) to remove the second coupling member 140 attached to one end of the outside. The body fluid in the cranial cavity can be quickly discharged through a path different from the third coupling member 150 connected to the rear of the first flow path 161.

As the present invention can be seen in detail through the accompanying drawings and the description, the internal diameter is enlarged compared to the existing pipe portion (double discharge pipe) diameter is increased the efficiency of discharging the body fluid relative to the existing products The external diameter of the tube 110 maintains the same, so that the use of the stereotactic mechanism is possible during the procedure, thereby providing the accuracy and convenience of the procedure.

In addition, since the injection of the drug is made through the needle portion 174 of the injection member 170, which is made of a relatively hard material than the tube portion 110 of the catheter, the drug portion into the intracranial cavity and the tube portion made of a flexible material ( The distortion of the 110 can be prevented, and the structure of the pipe part 110 is simple, so that the manufacturing is easy and there is an advantage that the occurrence of problems during cleaning / sterilization is low.

The present invention is not necessarily limited to the preferred embodiments shown in the drawings, and includes all modifications that can be easily implemented by those skilled in the art without departing from the scope and spirit of the claims.

The present invention is equipped with a two-way connector in the back of the tube to allow the injection and discharge selectively through the respective paths through the two-way connector through the two-way connector abnormally formed hematoma, cerebrospinal fluid in the cranial cavity without side effects And body fluids such as brain tumors can be smoothly discharged out of the cranial cavity, and there is an effect that can easily inject hematoma lysis, etc. while maintaining a constant brain pressure.

In addition, since the outer circumferential diameter of the pipe part is configured in the same way, since the brain stereotactic mechanism can be used during the procedure, the catheter part of the catheter can be inserted / maintained more easily and easily as an accurate surgical part in the cranial cavity.

Claims (4)

An elongated pipe part 110 composed of a non-toxic transparent material having flexibility; A two-way connector 160 having two flow paths inserted through the connector 120 at the rear of the pipe part 110; Second and third coupling members 140 and 150 selectively coupled to branched flow paths of the two-way connector 160, respectively; An injection member 170 into which the needle part 174 in front of the third coupling member 150 is inserted through the insertion hole 153 exposed to the rear of the third coupling member 150; Catheter comprising a fourth coupling member 180 is provided with a sealing member 181 is inserted into the receiving groove 171 formed from one side of the injection member 170. According to claim 1, The connector 120 has a fusion portion 124 is formed along the outer circumference of the one side is coupled to the rear of the tube portion 110 through the fusion portion 124 and the edge of the rear edge A catheter, characterized in that the protrusion 123 is formed so that the edge protrusion 123 is detachably screwed with the first coupling member 130 that is rotatably coupled to one side of the two-way connector (160). The method of claim 1, wherein the two-way connector 160 is formed in a T-shape as a whole, the first and second flow paths (161, 162) are selectively formed therein, each of these flow paths are formed on the outer peripheral The first and second coupling members 130 and 140 are selectively coupled to each other, while the rear portion of the first flow path 161 is coupled to the third coupling member 150 including the check valve 155. Catheters characterized by. According to claim 1 or 3, The third coupling member 150 has a border protrusion 152 is formed on the outer circumferential edge of the rear is coupled to the injection member 170 through the border protrusion 152, The injection member 170 has a needle portion 174 having an injection passage 175 formed therein at one side end thereof, and a border protrusion 172 is formed at the outer circumference of the other side to form an injection member 172. Catheter, characterized in that the coupling member 180 is coupled.